Bookshelf

2021


    • Bakunin, V.L., Denisov, G.G. & Novozhilova, Y.V., “Influence of an External Signal with Harmonic or Stepwise-Modulated Parameters on the High-Power Gyrotron Operation,” J Infrared, Millimeter, and Terahertz Waves, vol. 42(2021) 117–129. DOI:10.1007/s10762-020-00758-3.
    • Y. Y. Danilov et al., "Slit-Type Cavities for Cyclotron Resonance Masers Operating at TM Modes," in IEEE Transactions on Electron Devices, (2021). DOI:10.1109/TED.2021.3055162.

    • Takayasu Kawasaki, Yuusuke Yamaguchi, Tomomi Ueda, Yuya Ishikawa, Toyonari Yaji, Toshiaki Ohta, Koichi Tsukiyama, Toshitaka Idehara, Masatoshi Saiki, and Masahiko Tani, "Irradiation effect of a submillimeter wave from 420 GHz gyrotron on amyloid peptides in vitro," Biomedical optics express, 11.9 (2020) 5341-5351. DOI: 10.1364/BOE.395218.

    • T.I. Tkachova1, V.I. Shcherbinin, V.I. Tkachenko, Z.C. Ioannidis, M. Thumm, J. Jelonnek, “Starting currents of modes in cylindrical cavities with mode-converting corrugations for second-harmonic gyrotrons.” J Infrared, Millimeter, and Terahertz Waves, vol. 42 (2021) 260–274. DOI:10.1007/s10762-021-00772-z.

    • Ishikawa, Y., Fujii, Y., Fukuda, A. et al. “Development of an ESR/NMR Double-Magnetic-Resonance System for Use at Ultra-low Temperatures and in High Magnetic Fields and Its Use for Measurements of a Si Wafer Lightly Doped with 31P,” Appl Magn Reson (2021). DOI:10.1007/s00723-021-01309-2.

    • Konstantinos A. Avramidis, Zisis C. Ioannidis, Gaetano Aiello, Patrick Bénin, Ioannis Chelis, Andreas Dinklage, Gerd Gantenbein, Stefan Illy, John Jelonnek, Jianbo Jin, Heinrich P. Laqua, Alberto Leggieri, François Legrand, Alexander Marek, Stefan Marsen, Ioannis Gr. Pagonakis, Tobias Ruess, Tomasz Rzesnicki, Theo Scherer, Dirk Strauss, Manfred Thumm, Ioannis Tigelis, Dietmar Wagner, Jörg Weggen, Robert C. Wolf, “Towards a 1.5 MW, 140 GHz gyrotron for the upgraded ECRH system at W7-X,” Fusion Engineering and Design, vol. 164 (2021). DOI: 10.1016/j.fusengdes.2020.112173.

    • Proyavin M.D., Morozkin M.V., Luchinin A.G. et al. “An Experimental Study of the Influence of the Longitudinal Magnetic-Field Distribution Profile on the Output Characteristics of a Gyrotron,” Instrum. Exp. Tech., vol. 64 (2021) 97–101. DOI:10.1134/S0020441220060196.

    • Vakhin A.V., Khelkhal M.A., Tajik A., Gafurov M.R., Morozov O.G., Nasybullin A.R., Karandashov S.A., Ponomarev A.A., Krapivnitskaia T.O., Glyavin M.Y., Slavkina O.V., Shchekoldin K.A., “The Role of Nanodispersed Catalysts in Microwave Application during the Development of Unconventional Hydrocarbon Reserves: A Review of Potential Applications,” Processes, vol. 9, n. 3 (2021) 420. DOI:10.3390/pr9030420.

    • Shota Yamazaki, Yuya Ueno, Ryosuke Hosoki, Takanori Saito, Toshitaka Idehara, Yuusuke Yamaguchi, Chiko Otani, Yuichi Ogawa, Masahiko Harata, Hiromichi Hoshina, “THz irradiation inhibits cell division by affecting actin dynamics,” bioRxiv, (2021). DOI:10.1101/2021.02.26.433024.

    • Louksha, O.I., Trofimov, P.A., Manuilov, V.N. et al., “Trajectory Analysis in a Collector with Multistage Energy Recovery for a DEMO Prototype Gyrotron. Part I. Idealized Magnetic Field Distribution,” Tech. Phys, vol. 66 (2021) 118–123. DOI:10.1134/S1063784221010138.

    • Haas D., Thumm M., “Design Procedure for a Broadband TE11/HE11 Mode Converter for High-Power Radar Applications,” J Infrared, Millimeter, and Terahertz Waves, (2021). DOI:10.1007/s10762-021-00773-y.

    • Ginzburg N.S., Vilkov M.N., Danilov Y.Y. et al. “Generation of a Periodic Sequence of Ultrashort Electromagnetic Pulses in a Scheme with Two Parallel Radiating and Absorbing Electron Beams,” Tech. Phys. Lett., vol. 47 (2021) 184–188. DOI:10.1134/S106378502102022X.

    • G. Aiello, K.A. Avramidis, G. Gantenbein, J. Jelonnek, J. Jin, H.P. Laqua, A. Meier, T. Scherer, D. Strauss, M. Thumm, “Design verification of the gyrotron diamond output window for the upgrade of the ECRH system at W7-X,” Fusion Engineering and Design, vol. 165 (2021) 112262. DOI:10.1016/j.fusengdes.2021.112262.

    • Ishikawa, Y., Koizumi, Y., Fujii, Y. et al., “Millimeter-Wave Band Resonator with Surface Coil for DNP–NMR Measurements,” Appl Magn Reson (2021). DOI:10.1007/s00723-021-01328-z.

    • T. Tokuzawa, K. Tanaka, T. Tsujimura, S. Kubo, M. Emoto, S. Inagaki, K. Ida, M. Yoshinuma, K. Y. Watanabe, H. Tsuchiya, A. Ejiri, T. Saito, K. Yamamoto, and LHD Experiment Group, "W-band millimeter-wave back-scattering system for high wavenumber turbulence measurements in LHD," Review of Scientific Instruments, vol. 92 (2021) 043536. DOI:10.1063/5.0043474.

    • Melnikova, M.M., Tyshkun, A.V. & Ryskin, N.M., “Theoretical Analysis of Frequency Stabilization and Pulling Effects in a Gyrotron with Delayed Reflection,” J Infrared Millimeter, and Terahertz Waves, vol. 42, (2021) 446–461. DOI:10.1007/s10762-021-00768-9.

    • Grigorieva, N.V., Ryskin, N.M., Denisov, G.G. et al., “Dynamics of Multimode Processes at the Leading Edge of the Accelerating-Voltage Pulse in a Gyrotron Driven by an External Signal,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10063-1.

    • Kalynov, Y.K., Manuilov, V.N., Osharin, I.V. et al., “Universal Subterahertz Large-Orbit Gyrotron: Operation at the Second and Third Cyclotron Harmonics,” Radiophys Quantum El (2021).DOI:10.1007/s11141-021-10057-z.

    • Kalynov, Y.K., Bandurkin, I.V., Zavolskiy, N.A. et al., “High-Power Pulsed Terahertz-Wave Large-Orbit Gyrotron for a Promising Source of Extreme Ultraviolet Radiation,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10060-4.

    • Denisov, G.G., Glyavin, M.Y., Zotova, I.V. et al., “The Concept of a Gyrotron with Megawatt Output at Both First and Second Cyclotron Harmonics for Plasma Heating in Spherical Tokamaks,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10059-x.

    • Rozental’, R.M., Zotova, I.V., Glyavin, M.Y. et al., “Widening of the Frequency Tuning Bandwidth in a Subterahertz Gyrotron with an External Bragg Reflector,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10061-3.

    • Bogdashov, A.A., Novozhilova, Y.V., Fokin, A.P. et al., “Resonant Reflectors for Experimental Studies of the Reflected-Signal Influence on the Gyrotron Operation Regimes,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10062-2.

    • Z.C. Ioannidis et al., "Generation of 1.5MW-140GHz pulses with the modular pre-prototype gyrotron for W7-X," in IEEE Electron Device Letters, (2021). DOI:10.1109/LED.2021.3073221.

    • Morozkin, M.V., Proyavin, M.D., Manuilov, V.N. et al., “Optimization of Collector Systems of Technological Gyrotrons with Shielded Magnetic Systems,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10066-y.

    • Denisov, G.G., Malygin, V.I., Tsvetkov, A.I. et al., “Microwave Setup of A megawatt Power Level for the ECR Plasma Heating and Current Drive System of the T-15MD Tokamak,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10058-y.

    • Proyavin, M.D., Vikharev, A.A., Fedotov, A. et al., “Development of Electrodynamic Components for Microwave Electronic Devices Using the Technology of 3D Photopolymer Printing with Chemical Surface Metallization,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10072-0.

    • Bakunin, V.L., Denisov, G.G. & Novozhilova, Y.V., “Phase Locking of a Gyrotron with Low-Frequency Voltage and Current Fluctuations by an External Monochromatic Signal,” Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10064-0.

    • Malkin, A.M., Zaslavsky, V., Zheleznov, I. et al., “Development of High-Powermillimeter-Wave Surface-Wave Generators Based on Relativistic Ribbon Electron Beams, Radiophys Quantum El (2021). DOI:10.1007/s11141-021-10071-1

    • Haas D., Thumm M., Jelonnek J., “Calculations on Mode Eigenvalues in a Corrugated Waveguide with Varying Diameter and Corrugation Depth,” J Infrared, Millimeter, and Terahertz Waves (2021). DOI:10.1007/s10762-021-00791-w.

    • A.P. Fokin, V.L. Bakunin, M.Yu. Glyavin, and G. S. Nusinovich, "Automodulation instability in gyrotrons operating at the second cyclotron harmonic," Physics of Plasmas, vol. 28(2021) 043303. DOI:10.1063/5.0046914.

    • V.V. Parshin, E. Serov, A. V. Vodopyanov and D. Mansfeld, "Method to measure the dielectric parameters of powders in sub-terahertz and terahertz ranges," in IEEE Transactions on Terahertz Science and Technology, (2021). DOI:10.1109/TTHZ.2021.3076698.

    • I.O. Girka, I.V. Pavlenko, and M. Thumm , "Zeroth radial modes of azimuthal surface waves in dense plasma-loaded, coaxial helix traveling-wave-tube-like waveguides", Physics of Plasmas 28, 043106 (2021) https://doi.org/10.1063/5.0045139.

    • A.E. Fedotov, R.M. Rozental, O.B. Isaeva and A. G. Rozhnev, "Chaos and hyperchaos in a Ka-band gyrotron," in IEEE Electron Device Letters,(2021). DOI:10.1109/LED.2021.3078761.

    • E.M. Novak and A.V. Savilov, "On the voltage–current optimization in high-harmonic gyrotrons,” Physics of Plasmas, vol. 28 (2021) 054504 (2021). DOI:10.1063/5.0051177.

    • K.A. Avramidis et al., "Multifaceted Simulations Reproducing Experimental Results From the 1.5-MW 140-GHz Preprototype Gyrotron for W7-X," in IEEE Transactions on Electron Devices, vol. 68, n. 6 (2021) 3063-3069. DOI: 10.1109/TED.2021.3075653.

    • A.P. Fokin, A.A. Bogdashov, Y.V. Novozhilova, V.L. Bakunin, V.V. Parshin and M.Y. Glyavin, "Experimental Demonstration of Gyrotron Frequency Stabilization by Resonant Reflection," in IEEE Electron Device Letters, (2021). DOI: 10.1109/LED.2021.3083641.

    • T. Franke, G. Aiello, K. Avramidis, C. Bachmann, B. Baiocchi, C. Baylard, A. Bruschi, D. Chauvin, A. Cufar, R. Chavan, C. Gliss, F. Fanale, L. Figini, G. Gantenbein, S. Garavaglia, G. Granucci, J. Jelonnek, G. Suárez López, A. Moro, M. Moscheni, N. Rispoli, M. Siccinio, P. Spaeh, D. Strauss, F. Subba, I. Tigelis, M.Q. Tran, C. Tsironis, C. Wu, H. Zohm, “Integration concept of an Electron Cyclotron System in DEMO, Fusion Engineering and Design, vol. 168 (2021) 112653. DOI:10.1016/j.fusengdes.2021.112653.

    • A.M. Malkin, I.V. Zheleznov, A.S. Sergeev, and N.S. Ginzburg, "Quasi-optical theory of relativistic Cherenkov surface-wave oscillators with oversized cylindrical waveguides", Physics of Plasmas, vol. 28 (2021) 063102. DOI:10.1063/5.0047087.

    • Lurie Yu., Bratman V.L., “Injection of a short electron bunch into THz radiation section with an undulator and strong guiding magnetic fields,” Physics of Plasmas,vol. 28, n. 1 (2021) 013101. DOI:10.1063/5.0030647.
    • Louksha, P.A. Trofimov, V.N. Manuilov, M.Yu. Glyavin, “Multistage Depressed Collector with Azimuthal Magnetic Field for the DEMO Prototype Gyrotron,”Springer Proceedings in Physics, (2021). DOI: 10.1007/978-3-030-58868-7_2.
    • Bakunin V.L., Denisov G.G., Novozhilova, Y.V., “Influence of an External Signal with Harmonic or Stepwise-Modulated Parameters on the High-Power Gyrotron Operation,” Journal of Infrared, Millimeter, and Terahertz Waves (2021). DOI:10.1007/s10762-020-00758-3.

    • Shcherbinin V.I., Avramidis K.A., Thumm M. et al. “Mode Discrimination by Lossy Dielectric Rods in Cavities of Second-Harmonic Gyrotrons,” Journal of Infrared, Millimeter, and Terahertz Waves, (2021). DOI:10.1007/s10762-020-00760-9.

    • Haas D., Thumm M., Jelonnek J., “Broadband Rotary Joint Concept for High-Power Radar Applications,” Journal of Infrared, Millimeter, and Terahertz Waves, (2021). DOI:10.1007/s10762-020-00766-3.

    • A.G. Litvak, G.G. Denisov and M.Y. Glyavin, "Russian Gyrotrons: Achievements and Trends," in IEEE Journal of Microwaves, vol. 1, n. 1 (2021) 260-268. DOI:10.1109/JMW.2020.3030917.

    • Takahashi H., Ishikawa Y., Okamoto T., Hachiya D., Dono K., Hayashi K.,  Asano T., Mitsudo S., Ohmichi E., Ohta H., “Force detection of high-frequency electron spin resonance near room temperature using high-power millimeter-wave source gyrotron,” Applied Physics Letters, vol. 118, n. 2 (2021) – 022407. DOI: 10.1063/5.0036800.

    • L. A. Yurovskiy et al., "Production of Multi-Gigawatt Sub-Nanosecond Microwave Pulses by the Method of Chirped-Pulse-Amplification," in IEEE Electron Device Letters, (2021). DOI:10.1109/LED.2021.3053131.

    • Ryskin N.M., et al., “Development of microfabricated planar slow-wave structures on dielectric substrates for miniaturized millimeter-band traveling-wave tubes,” Journal of Vacuum Science & Technology B, vol. 39, n. 1 (2021) 013204. DOI:10.1116/6.0000716.

    • A.A. Dubinov, V.V. Rumyantsev, V.I. Gavrilenko, and S.V. Morozov "InP-based waveguide frequency doubler for subterahertz-range radiation sources," Optical Engineering, vol. 60, n. 8 (2021) 082014. DOI:10.1117/1.OE.60.8.082014.

    • V.Y. Zaslavsky, I. Zheleznov, N. Ginzburg, I. Zotova, A. Malkin, A. Sergeev, "Frequency Multiplication in Planar Gyrotrons as a Method for Production of High-Power Multi-THz Radiation," in IEEE Transactions on Electron Devices, (2021). DOI:10.1109/TED.2020.3049108.

    • Melnikova M.M., Tyshkun A.V., Ryskin, N.M., “Theoretical Analysis of Frequency Stabilization and Pulling Effects in a Gyrotron with Delayed Reflection,” J Infrared, Millimeter, and Terahertz Waves (2021). DOI:10.1007/s10762-021-00768-9.

    • Maya Mizuno, Hideaki Kitahara, Kensuke Sasaki, Masahiko Tani, Masami Kojima, Yukihisa Suzuki, Takafumi Tasaki, Y. Tatematsu, Masafumi Fukunari, and Kanako Wake “Dielectric property measurements of corneal tissues for computational dosimetry of eye in terahertz band,” Biomedical Optics Express, (2021). DOI:10.1364/BOE.412769.
    • G. Aiello, K.A. Avramidis, G. Gantenbein, J. Jelonnek, J. Jin, H.P. Laqua, A. Meier, T. Scherer, D. Strauss, M. Thumm, “Design verification of the gyrotron diamond output window for the upgrade of the ECRH system at W7-X,” Fusion Engineering and Design, vol. 165 (2021). DOI:10.1016/j.fusengdes.2021.112262.


  • 2020

    • M. Glyavin, V. Manuilov, E. Taradaev, G. Sominskii, A. Fokin, A. Sedov, “Design of a pulsed 0.5 THz gyrotron and preliminary test of itselectron gun with field emitter,” Infrared Physics & Technology, vol. 111 (2020) 103480. DOI:10.1016/j.infrared.2020.103480.

    • R.L. Lapin et al, “Efficiency investigation of a negative hydrogen ion beam production with the use of the gasdynamic ECR plasma source,” J. Phys.: Conf. Ser., vol. 1647 (2020) 012012. DOI: 10.1088/1742-6596/1647/1/012012.
    • C. Wu, I.Gr. Pagonakis, S. Illy, J. Jelonnek, “Two-dimensional leapfrog scheme for trajectories of relativistic charged particles in static axisymmetric electric and magnetic field,” Journal of Computational Physics: X, (2020). DOI:10.1016/j.jcpx.2020.100079.
    • Zapevalov V.E., Zuev A.S., Kuftin A.N., “Multibarel gyrotrons,” Izv. Vuz. Radiophysics, vol. 63, n. 2 (2020) 105-114. Original in Russian: Запевалов В.Е., Зуев А.С., Куфтин А.Н., “Многоствольные гиротроны,”Известия высших учебных заведений-Радиофизика, vol. 63, n.2 (2020) 105-114.

    • Savilov A.V., "Formations of a giant “running” pulse in the process of a quasi-regular amplification of a long wave signal by a slipping electron bunch," Physics of Plasmas, vol. 27, n. 10 (2020) 104502. DOI: 10.1063/5.0023299.

    • Z. C. Ioannidis, I. Chelis, G. Gantenbein, T. Rzesnicki, J. Jelonnek, "Experimental Classification and Enhanced Suppression of Parasitic Oscillations in Gyrotron Beam Tunnels," in IEEE Transactions on Electron Devices, (2020). DOI: 10.1109/TED.2020.3025751.

    • Movshevich B.Z., Tsvetkov A.I., Glyavin M.Y. et al. “The Fast Controller of a Gyrotron Anode Voltage,” Instrum Exp Tech, vol. 63 (2020) 830–834. DOI:10.1134/S002044122006010X.

    • A. Marek et al., "Extended Feedback System for Coupled Sub-THz Gyro-Devices to Provide New Regimes of Operation," in IEEE Transactions on Electron Devices (2020) 10.1109/TED.2020.3028531.

    • A. Likhachev, S. Kishko, S. Ponomarenko, E. Khutoryan, A. Kuleshov, M. Glyavin. Y. Tatematsu, S. Mitsudo, T. Idehara, "Low-Voltage Adiabatic Magnetron Injection Gun for 400 GHz Gyrotron," 2020 IEEE Ukrainian Microwave Week (UkrMW), Kharkiv, Ukraine, 2020, pp. 950-953.DOI: 10.1109/UkrMW49653.2020.9252629.

    • A. Maksimenko, V. Shcherbinin, V. Tkachenko, "Linear Theory of Beam-Wave Interaction in Gyrotron Cavities with Mode Conversion," 2020 IEEE Ukrainian Microwave Week (UkrMW), Kharkiv, Ukraine, 2020, pp. 929-932. DOI:10.1109/UkrMW49653.2020.9252719.

    • A.V. Vodopyanov, V.V. Kubarev, A.V. Sidorov, O.A. Shevchenko, A.P. Veselov, Y.I. Gorbachev, S.V. Sintsov, M.E. Viktorov, M.V. Morozkin, and M.Y. Glyavin "Continuous atmospheric pressure discharges in terahertz and sub-terahertz focused beams", Proc. SPIE 11582, Fourth International Conference on Terahertz and Microwave Radiation: Generation, Detection, and Applications, 1158210 (17 November 2020). DOI:10.1117/12.2580544.

    • M.M. Melnikova, N.V. Grigorieva, and N.M. Ryskin "Influence of reflected or external signal on gyrotron operation," Proc. SPIE 11582, Fourth International Conference on Terahertz and Microwave Radiation: Generation, Detection, and Applications, 115820M (17 November 2020). DOI:10.1117/12.2580073.

    • Malkin A.M., Zheleznov I.V., Sergeev A.S., Zaslavsky V.Yu., Makhalov P.B., Ginzburg N.S., “Unified quasi-optical theory of short-wavelength radiation amplification by relativistic electron beams moving near the impedance surfaces,” Physics of Plasmas, vol. 27, n. 11 (2020) 113106. DOI: 10.1063/5.0030914.

    • Afalla J., De Los Reyes A., Cabello N.I. et al. “A modulation-doped heterostructure-based terahertz photoconductive antenna emitter with recessed metal contacts,” Sci Rep, vol. 10, (2020) 19926. DOI:10.1038/s41598-020-76413-7.

    • C.-H. Tsai, T.-H. Chang, Y. Tatemstsu, Y. Yamaguchi, et al., "Reflective Gyrotron Backward-Wave Oscillator With Piecewise Frequency Tunability," in IEEE Transactions on Electron Devices, (2020). DOI:10.1109/TED.2020.3036323.

    • A.S. Zuev, A.S. Sedov, E.S. Semenov, A.P. Fokin and M. Y. Glyavin, "Analysis of the Possibilities to Control Diffraction Quality Factors of the Cavities of Subterahertz Gyrotrons," in IEEE Transactions on Plasma Science, vol. 48, n. 11 (2020) 4037-4040. DOI:10.1109/TPS.2020.3025689.

    • S.S. Ponomarenko,  A.A. Likhachev,V.V. Stoyanova, Y.S. Kovshov, S.A. Vlasenko, S.A. Kishko, E.M. Khutoryan, A.N Kuleshov, "Spectral Characteristics of THz CW Clinotrons," in IEEE Transactions on Electron Devices, vol. 67, n. 12 (2020) 5766-5770. DOI:10.1109/TED.2020.3032940.

    • M. Glyavin, V. Manuilov, E. Taradaev, G. Sominskii, A. Fokin, A. Sedov, “Design of a pulsed 0.5 THz gyrotron and preliminary test of its electron gun with field emitter,” Infrared Physics & Technology, vol. 111 (2020) 103480. DOI:10.1016/j.infrared.2020.103480.

    • Rozental R., Samsonov S., Glyavin M., Bogdashov A., "CW Multifrequency K-Band Source Based on a Helical-Waveguide Gyro-TWT with Delayed Feedback," in IEEE Transactions on Electron Devices, (2020). DOI:10.1109/TED.2020.3036331.

    • Krier, L., Pagonakis, I.Gr., Avramidis, K. A., Gantenbein, G., Illy, S., Jelonnek, J., Jin, J., Laqua, H.P., Marek, A., Moseev, D., Thumm,M., “Theoretical investigation on possible operation of a 140 GHz 1 MW gyrotron at 175 GHz for CTS plasma diagnostics at W7-X,” Physics of Plasmas, vol. 27, n. 11 (2020) 113107. DOI: 10.1063/5.0022151.

    • O.I. Louksha, P.A. Trofimov, V.N. Manuilov, M.Yu. Glyavin, “Multistage Depressed Collector with Azimuthal Magnetic Field for the DEMO Prototype Gyrotron,”Springer Proceedings in Physics, (2021). DOI: 10.1007/978-3-030-58868-7_2.

    • A.A. Bogdashov and S.V. Samsonov, "Cold-Test of Transverse Input-Output Microwave Circuit Components for a High-Power W-Band Gyro-TWT," in IEEE Electron Device Letters, (2020). DOI: 10.1109/LED.2020.3039802.

    • S. Adya, S. Yuvaraj, S. Karmakar, M.V. Kartikeyan and M.K. Thumm, "Investigations on W-Band Second Harmonic Gyrotron for 50/100-kW Operation," in IEEE Transactions on Plasma Science, doi: 10.1109/TPS.2020.3033316.

    • K. Singhal, N. Gurjar, S. Jain, Vishant, A. Abhishek, A.V. Starodubov, N.M. Ryskin,et al., "Analysis of Hollow Cathode Aperture Wall Profile on Pseudospark Discharge-Based Sheet Electron Beam Source," in IEEE Transactions on Plasma Science, (2020). DOI:10.1109/TPS.2020.3040593.

    • R.A. Torgashov et al., "Investigations on High-Current-Density Sheet-Beam Driven V-Band Slow Wave Oscillator With a Hollow Cathode," in IEEE Transactions on Plasma Science, (2020). DOI:10.1109/TPS.2020.3040913.

    • Manuilov V.N., Fedotov A.E., Zotova I.V.,. Rozental R.M, Idehara T., Mitsudo S., Glyavin M.Yu., “Magnetron-Injection Gun with Increased Current for Frequency Tunable Medium Power Sub-THz Gyrotron,”J Infrared Milli Terahz Waves, vol. 41 (2020) 1488–1497. DOI:10.1007/s10762-020-00746-7.

    • N.S. Akhmadullina et al., “ Plasma-chemical processes in the mixtures “metal-organic compound” and “metal-inorganic salt” initiated by pulse radiation of gyrotron, J. Phys.: Conf. Ser., vol. 1686 (2020)  012012. DOI: 10.1088/1742-6596/1686/1/012012.

    •  Artem’ev, K.V., Batanov, G.M., Berezhetskaya, N.K. et al., “Features of a Supersonic Ionization Wave in Argon at Atmospheric Pressure in a Sub-Threshold Microwave Field,” Plasma Phys. Rep., vol. 46 (2020) 1220–1226. DOI:10.1134/S1063780X20120016.

    • Z.C. Ioannidis, I. Chelis, G. Gantenbein, T. Rzesnicki and J. Jelonnek, "Experimental Classification and Enhanced Suppression of Parasitic Oscillations in Gyrotron Beam Tunnels," in IEEE Transactions on Electron Devices, vol. 67, no. 12 (2020) 5783-5789. DOI:10.1109/TED.2020.3025751.

    • I.V. Bandurkin, G.I. Kalynova, Y.K. Kalynov, I.V. Osharin, A.V. Savilov and D.Y. Shchegolkov, "Mode Selective Azimuthally Asymmetric Cavity for Terahertz Gyrotrons," in IEEE Transactions on Electron Devices, vol. 68, n. 1 (2020) 347-352. DOI:10.1109/TED.2020.3039209.

    • Oparina Yu.S., Bratman  V.L., Lurie Yu., Savilov A.V., “Efficiency enhancement of THz radiation from an electron bunch in a waveguide due to low-frequency stabilization,” Journal of Physics: Conference Series, vol. 1697 (2020) 012058. DOI: 10.1088/1742-6596/1697/1/012058.

    •  I.V. Bandurkin, Yu.K. Kalynov, D.D. Krygina, I.V. Osharin, A.V. Savilov, and N.A. Zavolsky "High-harmonic large-orbit gyrotrons for physical applications", Proc. SPIE 11582, Fourth International Conference on Terahertz and Microwave Radiation: Generation, Detection, and Applications, (2020). DOI:10.1117/12.2579873.

    • I.V. Bandurkin G.I. Kalynova, Y.K. Kalynov, I.V. Osharin, A.V. Savilov, D.Y. Shchegolkov, "Mode Selective Azimuthally Asymmetric Cavity for Terahertz Gyrotrons," in IEEE Transactions on Electron Devices, vol. 68, n. 1 (2020) 347-352. DOI:10.1109/TED.2020.3039209.

    • Ginzburg N.S., Yurovskiy  L.A., Nazarovsky A.V. et al., “Generation of Terahertz Superradiance Pulses under Stimulated Scattering of Laser Radiation by an Associated High-Current Relativistic Electron Beam,” Tech. Phys. Lett., vol. 46 (2020) 1162–1166. DOI:10.1134/S106378502012006.

    • Y. Yamaguchi, T. Ogura, T. Ueyama, Y. Maeda, K. Takayama, J. Sasano, M. Fukunari, Y. Tatematsu, T. Saito, "Super Multi-Frequency Oscillations at Fundamental Harmonics with a Complex Cavity Gyrotron," IEEE Electron Device Letters, (2020). DOI:10.1109/LED.2020.3000640.
    • Kojima, M., Suzuki, Y., Tasaki, T. et al., “Clinical Course of High-Frequency Millimeter-Wave (162 GHz) Induced Ocular Injuries and Investigation of Damage Thresholds,” J Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00714-1.
    • G. Aiello, S. Schreck, K.A. Avramidis, T. Franke, G. Gantenbein, J. Jelonnek, A. Meier, T. Scherer, D. Strauss, M. Thumm, M.Q. Tran, C. Wild, E. Woerner, “Towards large area CVD diamond disks for Brewster-angle windows,” Fusion Engineering and Design, vol. 157 (2020) 111818. DOI:10.1016/j.fusengdes.2020.111818.
    • Girka I.O., Girka O.I., Thumm M., “Azimuthal surface waves in cylindrical metal waveguides partially filled by magnetoactive plasma: Analysis of energy transfer,” Physics of Plasmas, vol. 27, n. 6 (2020) 062108. DOI: 10.1063/5.0009220.
    • S.V. Samsonov, K.A. Leshcheva, V.N. Manuilov, "Multitube Helical-Waveguide Gyrotron Traveling-Wave Amplifier: Device Concept and Electron-Optical System Modeling," in IEEE Transactions on Electron Devices, (2020). DOI:10.1109/TED.2020.3001491.
    • Gashturi A.P., Nusinovich G.S., Zotova I.V., Semenov E.S., Sabchevski S.P., Glyavin M.Yu., “Nonlinear excitation of parasitic modes in harmonic gyrotrons,” Physics of Plasmas, vol. 27, n. 6 (2020) 063304. DOI: 10.1063/5.0010593.
    • S.V. Samsonov, G.G. Denisov, I.G. Gachev, A.A. Bogdashov, "CW Operation of a W-Band High-Gain Helical-Waveguide Gyrotron Traveling-Wave Tube," in IEEE Electron Device Letters, vol. 41, n. 5 (2020) 773-776. DOI:10.1109/LED.2020.2980572.
    • Glyavin M., Sabchevski S., Idehara T., Mitsudo S., “Gyrotron-Based Technological Systems for Material Processing—Current Status and Prospects,” J Infrared, Millimeter, and Terahertz Waves, (2020). DOI:10.1007/s10762-020-00727-w.
    • Fokin A.P., Glyavin M.Yu., Manuilov V.N., Osharin I.V., Savilov A.V., "On applicability of absorbing rectilinear electron beams in high-frequency gyrotrons operating at cyclotron harmonics," Physics of Plasmas, vol. 27, n. 6 (2020) 064501. DOI: 10.1063/5.0006108.
    • Glyavin, M., Zotova, I., Rozental, R.,  Malkin A., Sergeev A., Fokin A., Rumyantsev V., Morozov S.,  “Investigation of the Frequency Double-Multiplication Effect in a Sub-THz Gyrotron,” J Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00726-x.
    • Nusinovich G.S., Chen X., Dumbrajs O., Xiao H., “Zones of soft and hard self-excitation in gyrotrons: Generalized approach,” Physics of Plasma, vol. 27, n. 7 (2020) 073103. DOI:10.1063/5.0010377.
    • Girka I.O., Girka O.I., Thumm, M., “Azimuthal surface waves in cylindrical metal waveguides partially filled by magnetoactive plasma: Analysis of energy transfer,” Physics of Plasmas, vol. 27, n. 6 (2020), 062108. DOI: 10.1063/5.0009220.
    • I.V. Bandurkin, A.P. Fokin, M.Yu. Glyavin, A.G. Luchinin, I.V. Osharin, A.V. Savilov, “Demonstration of a Selective Oversized Cavity in a Terahertz Second-Harmonic Gyrotron,” IEEE Electron Device Letters, (2020). DOI: 10.1109/LED.2020.3010445.
    • Y K. Kalynov, I.V. Osharin, A.V. Savilov, "Competition of Oscillations at Different Cyclotron Harmonics in the Subterahertz Large-Orbit Gyrotron," IEEE Transactions on Electron Devices, (2020). DOI:10.1109/TED.2020.3009617.
    • I. Bandurkin, A. Fedotov, M. Glyavin, T. Idehara, A. Malkin, V. Manuilov, A. Sergeev, A. Tsvetkov, V. Zaslavsky, Zotova, "Development of Third-Harmonic 1.2-THz Gyrotron With Intentionally Increased Velocity Spread of Electrons," in IEEE Transactions on Electron Devices, (2020). DOI:10.1109/TED.2020.3012524.
    • A.V. Palitsin, Y.V. Rodin, A.G. Luchinin, A.N. Panin, V.L. Bakunin, Y.V. Novozhilova, A.V. Gromov, M.B. Goykhman, A.S. Zuev, M.Yu. Glyavin, "Experimental study of multi-mode dynamics of THz-band pulsed magnetic field gyrotron," in IEEE Electron Device Letters, vol. 41, n. 10 (2020) 1576-1579. DOI:10.1109/LED.2020.3018551.
    • Vodopyanov A. V., Mansfeld D. A., Tsvetkov A. I., “Peculiarities of Pulsed Heating by the Radiation of a Subterathertz Gyrotron in the Production of Metal Oxide Nanopowders,” Technical Physics Letters, vol. 46, n. 8 (2020) 760-763. DOI:10.1134/S1063785020080155.  (Russian Text published in Pis’ma v Zhurnal Tekhnicheskoi Fiziki, 2020, Vol. 46, No. 15, pp. 33–35).
    • T. Kawasaki, Y. Yamaguchi, T. Ueda, Y. Ishikawa, T. Yaji, T. Ohta, K. Tsukiyama, T. Idehara, M. Saiki, M.  Tani, “Irradiation effect of a submillimeter wave from420 GHz gyrotron on amyloid peptides in vitro,” Biomedical Optics Express, vol. 11, n. 9 (2020) 5341. DOI: 10.1364/BOE.395218.
    • Sidorov A., Razin S., Veselov A., Viktorov M., Vodopyanov A., Luchinin A., Glyavin M.,  "Dynamics of the gas discharge in noble gases sustained by the powerful radiation of 0.67 THz gyrotron,"  Physics of Plasmas, vol. 27, n. 9 (2020) 093509. DOI:10.1063/5.0012583.
    • M. Glyavin, V. Manuilov, E. Taradaev, G. Sominskii, A. Fokin, A. Sedov, “Design of a pulsed 0.5 THz gyrotron and preliminary test of its electron gun with field emitter,” Infrared Physics & Technology, (2020) 103480. DOI:10.1016/j.infrared.2020.103480.
    • Maremyanin K.V., Parshin V.V., Serov E.A. et al., “Investigation into Microwave Absorption in Semiconductors for Frequency-Multiplication Devices and Radiation-Output Control of Continuous and Pulsed Gyrotrons,” Semiconductors, vol. 54 (2020) 1069–1074. DOI:10.1134/S1063782620090195.
    • Manuilov V.N., Tsvetkov A.I., Glyavin M.Y. et al., “Universal Electron Gun Design for a CW Third Harmonic Gyrotron with an Operating Frequency over 1 THz,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 41 (2020) 1121–1130. DOI:10.1007/s10762-020-00702-5.
    • Denisov G.G., Glyavin M.Y., Fedotov A.E. et al.,”Theoretical and Experimental Investigations of Terahertz-Range Gyrotrons with Frequency and Spectrum Control,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 41 (2020) 1131–1143. DOI:10.1007/s10762-020-00672-8.
    • I.V. Osharin, A.V. Savilov, “Frequency tuning in short-wave gyrotrons,” Radiophysics and Quantum Electronics, vol. 62, n. 11 (2020). DOI: 10.1007/s11141-020-10020-4.
    • Zavol’sky N.A., Zapevalov V.E., Kuftin A.N., Postnikova A.S., “Numerical Simulation and Experimental Study of High-Power Gyrotrons with Energy Recovery,” Radiophysics and Quantum Electronics, vol. (2020). DOI:10.1007/s11141-020-10021-3.
    • Gavrilenko V., Glyavin M., Shkurinov A., “Editorial Introduction to the Special Issue: THz Summer 2019 in Russia,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 41, (2020) 1039–1040. DOI:10.1007/s10762-020-00741-y.
    • Serov E.A., Parshin V.V., Vlasova K.V. et al., “Modern Dielectric Materials for Output Windows of High-Power Microwave and Terahertz Sources,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 41, (2020). DOI:10.1007/s10762-020-00745-8.
      https://link.springer.com/article/10.1007/s10762-020-00745-8.
    • Bakunin V.L., Glyavin M.Yu., Denisov G.G., Novozhilova Y.V., "Investigation of mode interaction for a gyrotron with dense mode spectrum," Journal of Electromagnetic Waves and Applications, (2020). DOI: 10.1080/09205071.2020.1821790.
    • Manuilov V.N., Fedotov A.E., Zotova I.V., Rozental R.M., Idehara T., Mitsudo S., Glyavin M.Yu., “Magnetron-Injection Gun with Increased Current for Frequency Tunable Medium Power Sub-THz Gyrotron,”  Journal of Infrared, Millimeter, and Terahertz Waves, (2020). DOI:10.1007/s10762-020-00746-7.
    • Kulygin M.L., Litovsky I.A., “Sub-Terahertz Complex Permittivity Measurement Method Using Cavity Switches,” J Infrared Milli Terahz Waves (2020). DOI:10.1007/s10762-020-00742-x.
    • A.S. Zuev, A.S. Sedov, E.S. Semenov, A.P. Fokin, M.Y. Glyavin, "Analysis of the Possibilities to Control Diffraction Quality Factors of the Cavities of Subterahertz Gyrotrons," in IEEE Transactions on Plasma Science, (2020). DOI: 10.1109/TPS.2020.3025689.
    • S.V. Egorov, A.G. Eremeev, V.V. Kholoptsev, I.V. Plotnikov, K.I. Rybakov, A.A. Sorokin, S.S. Balabanov, E.Ye. Rostokina, Yu.V. Bykov, “Rapid microwave sintering of alumina ceramics with an addition of carbon nanotubes,” Ceramics International, (2020). DOI:10.1016/j.ceramint.2020.10.027.
    • Stober, J., et al. "Exploring fusion-reactor physics with high-power electron cyclotron resonance heating on ASDEX Upgrade," Plasma Physics and Controlled Fusion, vol. 62, n. 2 (2020) 024012. DOI: 10.1088/1361-6587/ab512b.
    • Denisov G.G., Kuftin A.N., Manuilov V.N., et al., “Design of master oscillator for frequency locking of a complex of megawatt level microwave sources,” Microw. Opt.Technol. Lett., (2020) 1-7. DOI:10.1002/mop.32330.

    • Leontyev A.N., Abubakirov E.B., Belousov V.I. et al., “Possibilities of Increasing the Output Radiation Power of High-Current Relativistic Gyrotrons Using Operating Modes of the TM Type,” Bull. Russ. Acad. Sci. Phys., vol. 84 (2020) 66–69. DOI:10.3103/S1062873820010165.

    • Kanda T., Kitawaki M., Arata T., Matsuki Y., Fujiwara T., "Structural analysis of cross-linked poly(vinyl alcohol) using high-field DNP-NMR," RSC Advances, vol. 10, n. 14 (2020) 8039. DOI:10.1039/D0RA00399A.

    • Tatematsu Y., Yamaguchi Y., Fukunari M. et al. “Development of Gyrotron FU CW GVII: a Second Harmonic, Multifrequency Gyrotron that Radiates Gaussian Beams,” Journal of Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00681-7.

    • Denisov G.G., Glyavin M.Y., Fedotov A.E. et al. “Theoretical and Experimental Investigations of Terahertz-Range Gyrotrons with Frequency and Spectrum Control,” Journal of Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00672-8.

    • Bandurkin I.V., Bratman V.L., Kalynov Y.K., Manuilov V.N., Osharin I.V., Savilov A.V., "High-Harmonic Gyrotrons with Axis-Encircling Electron Beams at IAP RAS," Radiophysics and Quantum Electronics, (2020). DOI:10.1007/s11141-020-09997-9.

    • Proyavin M.D., Glyavin M.Y., Zavol’sky N.A. et al., “Development of a High-Power Continuous-Wave Gyrotron for High-Efficiency Technological K-Band Microwave Complexes,” Radiophys Quantum Electronics, (2020). DOI:10.1007/s11141-020-09996-w.
    • Samsonov S.V., Bogdashov A.A., Gachev I.G. et al., “Studies of a Gyrotron Traveling-Wave Tube with Helically Corrugated Waveguides at IAP RAS: Results and Prospects,”Radiophys Quantum Electronics (2020). DOI:10.1007/s11141-020-09991-1.

    • Bakunin V.L., Guznov Y.M., Denisov G.G. et al., “An Experimental Study of the External-Signal Influence on the Oscillation Regime of a Megawatt Gyrotron,” Radiophys Quantum Electronics (2020). DOI:10.1007/s11141-020-09994-y.

    • Bakunin V.L., Denisov G.G., Novozhilova Y.V., “Locking of the Frequency of a Multimode Gyrotron by a Quasi-Monochromatic External Signal,” Radiophys Quantum Electronics (2020). DOI:10.1007/s11141-020-09995-x.

    • Ginzburg N.S., Yurovsky L.A., Vilkov M.N., et al., “Stretching, Amplification, and Compression of DOI:10.1007/s11141-020-09993-z.

    • V. L. Bakunin, G. G. Denisov, Y. V. Novozhilova, "Principal Enhancement of THz-range Gyrotron Parameters Using Injection Locking," IEEE Electron Device Letters, (2020). DOI: 10.1109/LED.2020.2980218.

    • Proyavin M.D., Manuilov V.N., Gachev I.G. et al., “A Magneto-Armored Warm-Solenoid Based System for K-Band Gyrodevices,” Instrum. Exp. Tech., vol 63 (2020) 97–100. DOI:10.1134/S0020441220010078.

    • Abubakirov E.B., Vikharev A.A., Ginzburg N.S. et al., “Pumping Systems for Compton Free-Electron Lasers: Microwave Undulators and Powering Sources.” Radiophysics Quantum Electronics, (2020). DOI:10.1007/s11141-020-09998-8.

    • Rozental R.M., Leontyev A.N., Sergeev A.S. et al., “Generation of Rogue Waves in Gyrotrons with High-Current Relativistic Beams,” Bull. Russ. Acad. Sci. Phys., vol. 84 (2020) 189–192. DOI:10.3103/S1062873820020306.

    • P. Wang et al., "Investigation of the Alignment method for High-Frequency Gyrotrons," IEEE Transactions on Terahertz Science and Technology, (2020). DOI: 10.1109/TTHZ.2020.2979116.

    • S.V. Samsonov, G.G. Denisov, I.G. Gachev, A.A. Bogdashov, "CW Operation of a W-band High-Gain Helical-Waveguide Gyrotron Traveling-Wave Tube," IEEE Electron Device Letters, (2020). DOI: 10.1109/LED.2020.2980572.

    • G. Golubiatnikov, M. Koshelev, A. Tsvetkov, A. Fokin, M. Glyavin, M. Tretyakov, "Sub-Terahertz High-Sensitivity High-Resolution Molecular Spectroscopy with a Gyrotron," IEEE Transactions on Terahertz Science and Technology, (2020). DOI: 10.1109/TTHZ.2020.2984459.
    • N.S. Ginzburg, G.G. Denisov, M.N. Vilkov, A.S. Sergeev, S.V. Samsonov, A.M. Malkin, I.V. Zotova, “Nonlinear Cyclotron Resonance Absorber for a Microwave Subnanosecond Pulse Generator Powered by a Helical-Waveguide Gyrotron Traveling-Wave Tube,” Phys. Rev. Applied, vol. 13 (2020). DOI: 10.1103/PhysRevApplied.13.044033.

    • N. Balal, V.L. Bratman, E. Magory, “New varieties of helical undulators,” Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, (2020). DOI:10.1016/j.nima.2020.163895.

    • Torgashov R.A., Ryskin N.M., Rozhnev A.G. et al. “Theoretical and Experimental Study of a Compact Planar Slow-Wave Structure on a Dielectric Substrate for the W-Band Traveling-Wave Tube,” Tech. Phys., vol. 65, (2020) 660–665. DOI:10.1134/S1063784220040222.

    • Sintsov S.V., Vodopyanov A.V., Viktorov M.E., Morozkin M.V., Glyavin, M.Y., “Non-equilibrium atmospheric-pressure plasma torch sustained in a quasi-optical beam of subterahertz radiation,” Journal of Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00694-2.

    • Saito T., Melnikova M.M., Ryskin N.M., Tanaka S., Shinbayashi  R., Yamaguchi  Y., Fukunari  M., Tatematsu Y., “Effect of Reflection on Mode Competition and Multi-Frequency Oscillation in a High-Power Sub-THz Gyrotron: Experimental Observation and Theoretical Analysis,” Journal of Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00695-1.

    • J. Järvinen, D. Zvezdov,   J. Ahokas, S. Sheludiakov, L. Lehtonen,  S. Vasiliev,  L. Vlasenko, Y. Ishikawa,   Y. Fujii, “Dynamic nuclear polarization and ESR hole burning in As doped silicon,” Phys. Chem. Chem. Phys.,  vol. 22 (2020) 10227-10237. DOI: 10.1039/C9CP06859G.

    • Manuilov V.N., Tsvetkov A.I., Glyavin M.Y., Mitsudo S., Idehara T., Zotova I.V., “Universal Electron Gun Design for a CW Third Harmonic Gyrotron with an Operating Frequency over 1 THz,”  Journal of Infrared, Millimeter, and Terahertz Waves s, (2020). DOI:10.1007/s10762-020-00702-5.

    • D. Mansfeld, S. Sintsov, N. Chekmarev, A. Vodopyanov, “Conversion of carbon dioxide in microwave plasma torch sustained by gyrotron radiation at frequency of 24 GHz at atmospheric pressure,” Journal of CO2 Utilization, vol. 40 (2020) 101197. DOI:10.1016/j.jcou.2020.101197.

    • Wagner D., Kasparek W., Leuterer F., Monaco F., Ruess T., Stober J., Thumm M., “A Compact Two-Frequency Notch Filter for Millimeter Wave Plasma Diagnostics,” Journal of Infrared, Millimeter, and Terahertz Waves (2020). DOI:10.1007/s10762-020-00701-6.

    • Fokin A.P., Glyavin M. Yu., Manuilov V.N., Osharin I.V., Savilov A.V., “On applicability of absorbing rectilinear electron beams in high-frequency gyrotrons operating at cyclotron harmonics,” Physics of Plasmas, vol. 27, n. 6 (2020) 064501. DOI: 10.1063/5.0006108.

    • V.I. Shcherbinin, Y.K. Moskvitina, K.A. Avramidis, J. Jelonnek, "Improved Mode Selection in Coaxial Cavities for Subterahertz Second-Harmonic Gyrotrons," IEEE Transactions on Electron Devices, (2020). DOI:10.1109/TED.2020.2996179.

    • S.K. Jawla, R.G. Griffin, I.A. Mastovsky, M.A. Shapiro, R.J. Temkin, "Second Harmonic 527-GHz Gyrotron for DNP-NMR: Design and ExperimentalResults," IEEE Transactions on Electron Devices, vol. 67, n. 1 (2020) 328-334. DOI:10.1109/TED.2019.2953658.

    • Zotova I.V., Ginzburg N.S., Malkin A.M., V.Yu Zaslavsky, I.V. Zheleznov, A.S. Sergeev, M.Yu Glyavin, S. Mitsudo, Y. Tatemasu, T. Idehara, “Terahertz-RangeHigh-Order Cyclotron Harmonic Planar Gyrotrons with Transverse Energy Extraction,” J Infrared Millimeter, and Terahertz Waves, vol. 41, n. 2 (2020) 152–163.DOI:10.1007/s10762-019-00661-6.

    • Nishiura M., Tanaka K., Kubo S., Saito T., Kenmochi N.,  Nuga H., Seki R., Shimozuma T., Yoshimura Y., Igami H.,  Takahashi H., Tsujimura T., Yanai R., Tatematsu Y.,"Collective Thomson scattering with 77, 154, and300 GHz sources in LHD," Journal of Instrumentation, vol. 15 (2020) C01002-C01002. DOI:10.1088/1748-0221/15/01/C01002.

    • Bulgarevich D.S., Akamine Y., Talara M., Mag-usara V., Kitahara H., Kato H., Shiihara M., Tani M., Watanabe M., “Terahertz Magneto-OpticSensor/Imager,” Sci. Rep. vol. 10 (2020) 1158. DOI:10.1038/s41598-020-58085-5.

    • Idehara T., Sabchevski S., Glyavin M., Mitsudo S. “The Gyrotrons as Promising Radiation Sources for THz Sensing and Imaging,” Appl. Sci., vol. 10, n. 3 (2020) 980. DOI:10.3390/app10030980.

    • Bogdashov A. A., Samsonov, S. V., “Microwave System of Transverse Output for a High-Power W-Band Gyro-TWT,” IEEE Transactions on ElectronDevices, (2020) 1–6. DOI:10.1109/ted.2020.2965997.

    • Pagonakis I.Gr., Avramidis K.A., Gantenbein G., Illy S., oannidis Z.C., Jin J., Kalaria P., Piosczyk B., Ruess S., Ruess T., Rzesnicki T., Thumm M., Jelonnek J., "Triode magnetron injection gun for the KIT 2 MW 170 GHz coaxial cavitygyrotron," Physics of Plasmas, vol. 27, n.2 (2020) 023105. DOI:10.1063/1.5132615.

    • Fokin A.P., Sedov A.S., Zuev A.S., "Experimental demonstration of the third cyclotron harmonic excitation in technological gyrotron withdelayed selective feedback," Review of Scientific Instruments, vol. 91, n.2 (2020) 024706. DOI:10.1063/1.5140720.

    2019

    • Sidorov A., Razin S., Veselov, A., Vodopyanov A., Morozkin M., Glyavin M., "Breakdown of the heavy noble gases in a focused beam of powerful sub-THz gyrotron, "Physics of Plasmas, vol. 26, n.8 (2019) 083510. DOI:10.1063/1.5109526.

    • Kawasaki T., Izumi Y., Ohori G., H. Kitahara T. Furuya, K., Yamamoto, K. Matsuo, M. Tani, K. Tsukiyama, “Study on Irradiation Effect of Mid-Infrared Free Electron Laser on Hen Egg-White Lysozyme by Using Terahertz-Time Domain Spectroscopy and Synchrotron-Radiation Vacuum-Ultraviolet Circular-Dichroism Spectroscopy,” J Infrared, Millimeter, and Terahertz Waves, vol. 40, n. 10 (2019) 998–1009 . DOI:10.1007/s10762-019-00626-9.
    • Skalyga V.A., Golubev S.V., Izotov I.V., Lapina R.L., Razina S.V., Sidorova A.V., Shaposhnikova R.A., “High-Current Pulsed ECR Ion Sources,” Plasma Phys. Rep., vol. 45 (2019) 984. DOI:10.1134/S1063780X19080087.

    • S. Mitsudo, M. Glyavin, E. Khutoryan, I. Bandurkin, T. Saito, Y. Ishikawa, V. Manuilov, I. Zotova, A. Fedotov, A. Kuleshov, S. Sabchevski1, Y. Tatematsu, V. Zaslavsky, T. Idehara, “An Experimental Investigation of a 0.8 THz Double-Beam Gyrotron,” Journal of Infrared, Millimeter, and Terahertz Waves, vol.40, n. 11–12 (2019) 1114–1128. DOI:10.1007/s10762-019-00629-6.

    •  T. Nawate, Y. Yamamoto, Y. Kanie, S. Mitsudo, Y. Fujii, T. Sakurai, “Electromagnetic-wave sintering of alumina ceramics from nano-sized particles: possible material for high-pressure cell for millimeter-wave electron spin resonance,” IOP Conference Series: Materials Science and Engineering, vol. 550 (2019) 012032. DOI:10.1088/1757-899X/550/1/012032.

    • V.I. Shcherbinin, V.I. Tkachenko, K.A. Avramidis, J. Jelonnek, "Coaxial Cavity With Stepped Inner Conductor for a Sub-Terahertz Second-Harmonic Gyrotron With Broadband Continuous Frequency Tuning," in IEEE Transactions on Electron Devices, vol. 66, 12 (2019) 5313-5320. DOI:10.1109/TED.2019.2944647.

    • Nowak K., Plinski E., Wieckowski T., Dumbrajs, O., “The gyrotron startup scenario in the single mode time dependent approach,” Mathematical Modelling and Analysis, vol. 24, no. 4 (2019) 494-506. DOI:10.3846/mma.2019.030.

    • Oparina Yu.S., Peskov N.Yu., Savilov A.V., "Electron RF Oscillator Based on Self-Excitation of a Talbot-Type Supermode in an Oversized Cavity," Phys. Rev. Applied, vol. 12, n. 4 (2019) 044070. DOI:10.1103/PhysRevApplied.12.044070.

    • Zuev A.S., Zapevalov V.E., Plankin O.P., Semenov E. S., “Optimization of a High-Power Subterahertz Gyrotron Tunable in a Wide Frequency Range Allowing for the Limitations Imposed by the Magnetic System,” Radiophysics Quantum Electronics, vol. 62, n.4 (2019) 277–285. DOI: 10.1007/s11141-019-09976-9.

    • Tsvetkov A.I., Vodopyanov A.V., Mansfeld D.A., Fokin A.P., “The Temperature Behavior of Microwave Absorption of Metal Oxide Powders When Heated by a 263-GHz Gyrotron Radiation,” J Infrared, Millimeter, and Terahertz Waves, vol. 40, n. 10 (2019) 991. DOI:10.1007/s10762-019-00622-z.

    • Ell B., Pagonakis I.Gr., Wu C., Thumm M., Jelonnek J., "Coaxial multistage depressed collector design for high power gyrotrons based on ExB concept," Physics of Plasmas, vol. 26, n. 11 (2019)113107. DOI:10.1063/1.5118338.

    • Afalla J., Catindig G., De Los Reyes A., Prieto E., Faustino M.A., Vistro V.D., Gonzales K.C., Bardolaza H., Mag-usara V.K., Husay H.A., Muldera, J., “Ultrafast carrier dynamics and THz conductivity in epitaxial grown LT-GaAs on Silicon for development of THz photoconductive antenna detectors,” Journal of Physics D: Applied Physics, vol. 53, n. 9 (2019) 095105. DOI:10.1088/1361-6463/ab5aa7.

    • Chernov V.V., Gorbachev A.M., “Maintenance of Plasma Layer in Intersected Microwave Beams in the Range of Frequency from 10 to 60 GHz: Analysis and Simulation Plasma,” Chem. Plasma Process, vol. 40, n. 1 (2019) 221–233. DOI:10.1007/s11090-019-10051-4.

    • Fukunari M., Tanaka S., Shinbayashi R., Yamaguchi Y., TatematsuY., Saito T., “Observation of a comb-shaped filamentary plasma array under subcritical condition in 303-GHz millimetre-wave air discharge,” Sci. Rep., vol. 9 (2019) 17972. DOI:10.1038/s41598-019-54333-5.

    • Proyavin M., Dumbrajs O., Nusinovich G., Glyavin M., “To the Theory of Gyrotrons with Wide Emitters,” J Infrared, Millimeter, and Terahz Waves, vol. 41, n. 2 (2019) 141–151|. DOI:10.1007/s10762-019-00646-5.

    • Bakunin V.L., Denisov G.G., Novozhilova Yu.V., “Nonlinear dynamics of multimode gyrotron under the influence of external quasi-monochromatic signal,” Zhurnal Radioelektroniki - Journal of Radio Electronics. 2019. No. 12. DOI:10.30898/1684-1719.2019.12.1.

    • Girka I.O., Girka O.I., Thumm M., “Electromagnetic energy rotation along plasma-dielectric interface caused by azimuthal surface waves in isotropic cylindrical metallic waveguide,” Physics of Plasmas, vol. 26, n. 12 (2019) 122104. DOI: 10.1063/1.5123378.

    • Glyavin M.Y., Zaslavsky V.Y., Zotova I.V. et al. “Energy Spectra of Electron Beams and the Possibility of Double-Stage Energy Recuperation in a Double-Beam Terahertz Gyrotron,” Radiophys Quantum Electronics, vol. 62, n. 5 (2019) 342–347. DOI:10.1007/s11141-019-09981-y.

    • R.A. Shaposhnikov, S.V. Golubev, V.A. Skalyga, I.V. Izotov, S.V. Razin, A.V. Sidirov, R.L. Lapin, S.S. Vybin, M.Yu. Kazakov, A.F. Bokhanov, “Point-like” neutron source based on D-D fusion reaction,” Journal of Physics: Conference Series, vol. 1370 (2019) 012008. DOI:10.1088/1742-6596/1370/1/012008.

    • S.V. Egorov et al, “Additive Manufacturing of Ceramic Products Based on Millimeter-Wave Heating,” IOP Conf. Ser.: Mater. Sci. Eng., vol. 678 (2019) 012022.

    •  Sidorov A.V., Glyavin M.Y., Golubev S.V., Razin S.V., Sintsov S.V., Veselov A.P., Vodopyanov A.V., “Applications of the gas discharge sustained by the powerful radiation of THz gyrotrons,” Journal of Physics: Conference Series, vol. 1400, n. 7 (2019) 077032). DOI:10.1088/1742-6596/1400/7/077032.

    • Fokin A.P., Tsvetkov A.I., Manuilov V.N., Sedov A.S., Bozhkov V.G., Genneberg V.A., Movshevich B.Z., Glyavin M.Yu., "Control of sub-terahertz gyrotron frequency by modulation-anode voltage: Comparison of theoretical and experimental results," Review of Scientific Instruments, vol. 90, n. 12 (2019) 124705. DOI:10.1063/1.5132831.

    • C. Tsai, T. Chang, Y. Yamaguchi, T. Idehara, "Nonadiabatic Effects on Beam-Quality Parameters for Frequency-Tunable Gyrotrons," IEEE Transactions on Electron Devices, vol. 67, n. 1 (2019) 341-346. DOI:10.1109/TED.2019.2954362.

    • Stephens J.C., Rosenzweig G., Shapiro M.A., Temkin R.J., Tucek J.C., Kreischer K.E., “Subterahertz Photonic Crystal Klystron Amplifier,” Phys. Rev. Lett., vol. 123, n. 24 (2019) 244801. DOI:10.1103/PhysRevLett. 123.244801.

    • Bogdashov A.A., Fokin A.P., Glyavin M.Y., Novozhilova Y.V., Sedov A.S., “Experimental Study of the Influence of Reflections from a Non-resonant Load on the Gyrotron Operation Regime,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 41, n. 2 (2019) 164–170|. DOI: 10.1007/s10762-019-00655-4.

    • Skalyga V.A., ABokhanov A.F., Golubev S.V., Izotov I.V., Kazakov M.Yu., Kiseleva E.M., Lapin R.L., Razin S.V., Shaposhnikov R.A., Vybin S.S., "Status of the gasdynamic ion source for multipurpose operation (GISMO) development at IAP RAS," Review of Scientific Instruments, vol. 90, n.12 (2019) 123308. DOI:10.1063/1.5128489.

    • Yurovskiy L.A., Ginzburg N.S., Zotova I.V., Vilkov M.N., Samsonov S.V., Sergeev A.S. “Frequency modulation, amplification and compression of microwave pulses in a system with helically corrugated waveguides as a dispersive elements,” Journal of Physics: Conference Series, vol. 1400, n. 4 (2019)  044006. DOI: 0.1088/1742-6596/1400/4/044006.

    • A. Kuleshov et al., "Low-Voltage Operation of the Double-Beam Gyrotron at 400 GHz," IEEE Transactions on Electron Devices, vol. 67, n.2 (2019) 673-676. DOI:10.1109/TED.2019.2957873.

    • I.O. Girka, I.V. Pavlenko, M. Thumm, “Electromagnetic energy rotation along plasma-metal interface in cylindrical waveguides initiated by azimuthal surface waves,” Physics of Plasmas, vol. 26, n. 2 (2019). DOI:10.1063/1.5089487.
    • Kulygin M., “Stress Test of Nanosecond Semiconductor Cavity Switches with Subterahertz Gyrotrons,” IEEE Trans. on Terahertz Science and Technology, vol. 9 (2019) 186-192. DOI:10.1109/TTHZ.2019.2891020.
    • Likhachev A., Danik A.,Kishko S., Ponomarenko S., Martseniak O., Khutoryan E.,  OgawaI., Idehara T., Kuleshov A.,  "Compact radiation module for THz spectroscopy using 300 GHz continuous-wave clinotron,"Review of Scientific Instruments, vol. 90, n. 3 (2019) 034703. DOI:10.1063/1.5064796.

    • Z.C. Ioannidis, K.A. Avramidis , G. Gantenbein, S. Illy, T. Kobarg, I.Gr. Pagonakis, T.Rzesnicki, J.Jelonnek, „Development and ExperimentalVerification of an XY-Table for the Optimization of the Alignment of High-Power Gyrotrons," IEEE Trans. on Electron Devices, (2019). DOI:10.1109/TED.2019.2899163.

    • Lu X., Shapiro M.A., Temkin R.J., "Linear theory of instabilities generated by an electron beam in a metamaterial-loadedwaveguide," Physics of Plasmas, vol. 26, n. 3 (2019) 033104. DOI:10.1063/1.5087587.

    • Abubakirov E.B., Denisenko A.N., Fedotov A.E., Leontyev A.N., Rozental R.M.,Tarakanov V.P., "Electron-optical system for a high-currentKa-band relativistic gyrotron," Physics of Plasmas, vol. 26, n. 3 (2019) 033302. DOI:10.1063/1.5085483.

    • Kulygin  M.L., Denisov  G.G., Novikov E.A., Fokin A.P., Litovsky I.A., “Switching of Subterahertz Waves Within a Duration Range of Ten Orders ofMagnitude,” Radiophys Quantum Electronics,  vol. 61, n. 8–9 (2019) 603-613. DOI:10.1007/s11141-019-09920-x.

    • Z.C. Ioannidis, F. Albajar, S. Alberti, K.A. Avramidis, W. Bin, T. Bonicelli, A. Bruschi, J. Chelis, F. Fanale, G. Gantenbein, J. Genoud, J.-P.Hogge, V. Hermann, S. Illy, J. Jelonnek, J. Jin, W. Kasparek, G. P. Latsas, F. Legrand, C. Lechte, I. Gr. Pagonakis, T. Rzesnicki, F. Sánchez, C. Schlatter,M. Schmid, I. G. Tigelis, M. Thumm, M. Q. Tran, A. Zisis, A. Zein, “Recent experiments with the European 1MW, 170GHz industrial CW and short-pulse gyrotrons forITER,” Fusion Engineering and Design, (2019). DOI:10.1016/j.fusengdes.2018.12.065.

    • G. Gantenbein, K. Avramidis, S. Illy, Z.C. Ioannidis, J. Jin, J. Jelonnek, P. Kalaria, I.Gr. Pagonakis, S. Ruess, T. Ruess, T. Rzesnicki, M.Thumm, C. Wu, “New trends of gyrotron development at KIT: An overview on recent investigations,” Fusion Engineering and Design, (2019).  DOI:10.1016/j.fusengdes.2018.12.063.

    • Ruess T., Avramidis K.A., Gantenbein G., Ioannidis Z.,  Illy S., Lutz F.C., Marek A., Ruess S., Rzesnicki T., Thumm M., Wagner D., Weggen J., Jelonnek J.,"Computer-Controlled Test System for the Excitation of Very High-Order Modes in Highly Oversized Waveguides," Journal of Infrared, Millimeter,and Terahertz Wave, vol. 40, n. 3 (2019) 267-268. DOI:10.1007/s10762-018-0566-3.

    • I.V. Bandurkin, M.Y. Glyavin, T. Idehara, A.V. Savilov, "Double-Beam Gyrotron With Frequency Multiplication," IEEE Trans. onElectron Devices (2019). DOI: 10.1109/TED.2019.2905047.

    • Saito T., Tatematsu Y., Yamaguchi Y., Fukunari M., Hirobe T., Shinbayashi R., Tanaka S. et al. "Developments for collective Thomsonscattering equipment with a sub-THz gyrotron in LHD." In EPJ Web of Conferences, vol. 203, p. 03012. EDP Sciences, 2019.

    • Saito T., Tatematsu Y., Yamaguchi Y., Fukunari M., Hirobe T., Shinbayashi R., Tanaka S., Ohkubo K., Kubo S., Shimozuma T., Tanaka K.,Nishiura M.,“Developments for collective Thomson scattering equipment with a sub-THz gyrotron in LHD,” EPJ Web of Conferences 203, 03012 (2019).

    • A. A. Likhachev, A.A. Danik, Yu.S. Kovshov, S.A. Kishko, S.S. Ponomarenko, V.N. Zheltov, E.M. Khutoryan, A.N. Kuleshov ryan, "Effect of Electron BeamVelocity Spread in a Clinotron," IEEE Trans. on Electron Devices, vol. 66, n. 3 (2019) 1540-1544. DOIO:10.1109/TED.2019.2891547.

    • Picard J.F., Schaub S.C., Rosenzweig G., Stephens J.C., Shapiro M.A., Temkin R.J., "Laser-driven semiconductor switch for generatingnanosecond pulses from a megawatt gyrotron," Applied Physics Letters, vol. 114, n. 16 (2019) 164102. DOI:10.1063/1.5093639.

    • Tsvetkov A.I., Fokin A.P., Sedov, A.S., “First Experiments on Data Transmission Using a Sub-THz Gyrotron,” J Infrared Milli Terahz Waves (2019). DOI:10.1007/s10762-019-00595-z.

    • Bykov, Y.V., Eremeev, A.G., Glyavin, M.Y. et al., “Millimeter-Wave Gyrotron Research System. I. Description of the Facility,” Radiophysics and QuantumElectronics (2019). DOI:10.1007/s11141-019-09933-6.

    • M. Thumm, G.G. Denisov, K.Sakamoto, M.-Q. Tran,"High-power gyrotrons for electron cyclotron heating and currentdrive," Nuclear Fusion (2019). DOI:10.1088/1741-4326/ab2005.

    • Kalynov Yu.K., Manuilov V.N., Fiks A.Sh., Zavolskiy N.A., "Powerful continuous-wave sub-terahertz electron maseroperating at the 3rd cyclotron harmonic," Applied Physics Letters, vol. 114, n. 21 (2019)213502. DOI: 10.1063/1.5094875.

    • P. Wang, H. Xiao, L. Li, O. Dumbrajs, "Functional Analysis Method for Nonlinear Theory of Gyrotrons," IEEE Trans.  on Plasma Science, (2019). DOI:10.1109/TPS.2019.2917040.

    • Bykov Y.V., Egorov S., Eremeev A.G., et al., ”Millimeter-Wave Gyrotron System for Research and Application Development. Part 2.High-Temperature Processes in Polycrystalline Dielectric Materials,” Radiophys Quantum Electronics (2019). DOI:10.1007/s11141-019-09936-3.

    • Glyavin M.Y., Fedotov A.E., Zotova I.V. et al., “Experimental Demonstration of the Possibility to Expand the Band of Smooth Tuning ofFrequency Generation in Short-Cavity Gyrotrons,” Radiophys Quantum Electronics, (2019).DOI:10.1007/s11141-019-09937-2.

    • Ginzburg N.S., Yurovskii L.A., Zotova I.V., Sergeev AS., ” Frequency Conversion of High-Power GyrotronRadiation under Conditions of Raman Backscattering on an Auxiliary Electron Beam,” Tech. Phys. Lett., vol. 45, n. 2 (2019) 134–137. DOI:10.1134/S1063785019020202.

    • Ioannidis Z.C., Albajar F., Alberti S., Avramidis K.A., et al., “Recent experiments with the European 1MW, 170GHz industrial CW and short-pulse gyrotrons for ITER,” Fusion Engineering and Design, (2019). DOI: 10.1016/j.fusengdes.2018.12.065.
    • Ruess T., Avramidis K.A., Gantenbein G., Ioannidis Z., et al., “Computer-Controlled Test System for the Excitation of Very High-Order Modes inHighly Oversized Waveguides,” Journal of Infrared, Millimeter, and Terahertz Waves, (2019). DOI:10.1007/s10762-018-0566-3.
    • Golubev S.A., et al “Pulsed neutron generator with a point-like emission area based on a high-current ECR source of deuterium ions,” JINST, vol.14 (2019) C01007. DOI: 10.1088/1748-0221/14/01/C01007.

    • Kulygin M., "Stress Test of Nanosecond Semiconductor Cavity Switches with Subterahertz Gyrotrons," IEEE Trans.onTerahertz Science and Technology, (2019). DOI:10.1109/TTHZ.2019.2891020.

    • Maksimenko A.V., Shcherbinin V.I., Hlushchenko A.V., Tkachenko V.I., Avramidis K.A., Jelonnek J., "Starting Currents for Eigenmodes of a Gyrotron Cavity With Mode Conversion," IEEE Trans. on Electron Devices (2019). DOI:10.1109/TED.2019.2893888.

    • T. Saito, S. Tanaka, R. Shinbayashi, Y. Tatematsu, Y. Yamaguchi, M. Fukunari, S. Kubo, T. Shimozuma, K. Tanaka, M. Nishiura, “Oscillation Characteristics of a High Power 300 GHz Band Pulsed Gyrotron for Use in Collective Thomson Scattering Diagnostics,” Plasma and Fusion Research, vol. 14 (2019) 1406104. DOI: 10.1585/pfr.14.1406104.

    • Rozental R.M., Fedotov A.E., Ginzburg N.S. et al, "Experimental Observation of Chaotic Generation at 1.5% Spectral Width in a Gyrotron under Large Supercriticality Conditions," Tech. Phys. Lett. vol.45 (2019) 511. DOI:10.1134/S1063785019050304. 

    • F. Wilde, S. Marsen, T. Stange, D. Moseev, J.W. Oosterbeek, H.P. Laqua, R.C. Wolf, K. Avramidis, G. Gantenbein, I.Gr. Pagonakis, S. Illy, J. Jelonnek, M.K. Thumm, “Automated mode recovery for gyrotrons demonstrated at Wendelstein 7-X,” Fusion Engineering and Design, vol. 148 (2019) 111258. DOI:10.1016/j.fusengdes.2019.111258.

    • Y. Yamamoto, T. Nawate, S. Mitsudo “Extraction of essential oils from leaves of the Japanese Lindera umbellata Thunb. by using microwave heating distillation method,” IOP Conf. Ser.: Mater. Sci. Eng. vol. 550 (2019) 012033. DOI: 10.1088/1757-899X/550/1/012033.

    • T. Nawate, Y. Yamamoto, Y. Kanie, S. Mitsudo, Y. Fujii., T. Sakurai, “Electromagnetic-wave sintering of alumina ceramics from nano-sized particles: possible material for high-pressure cell for millimeter-wave electron spin resonance,” IOP Conf. Ser.: Mater. Sci. Eng., vol. 550 (2019) 012032. DOI: 10.1088/1757-899X/550/1/012032.

    • V.V. Rumyantsev, K.V. Maremyanin, A.P. Fokin, A.A. Dubinov, V.V. Utochkin, M.Yu. Glyavin, N.N. Mikhailov, S.A. Dvoretskii, S.V. Morozov, V.I. Gavrilenko, “Second-Harmonic Generation of Subterahertz Gyrotron Radiation by Frequency Doubling in InP:Fe and Its Application for Magnetospectroscopy of Semiconductor Structures,” Semiconductors, vol. 53, n. 9 (2019) 1217–1221. DOI:10.1134/S1063782619090185.

    • F. Wilde, S. Marsen, T. Stange, D. Moseev, J.W. Oosterbeek, H.P. Laqua, R.C. Wolf, K. Avramidis, G. Gantenbein, I.Gr. Pagonakis, S. Illy, J. Jelonnek, M.K. Thumm, W7-X team, “Automated mode recovery for gyrotrons demonstrated at Wendelstein 7-X,” Fusion Engineering and Design, vol. 148 (2019) 111258. DOI:10.1016/j.fusengdes.2019.111258. 

    • P.C. Kalaria, M. George, S. Illy, K. A. Avramidis, G. Gantenbein, S. Ruess, M. Thumm, J. Jelonnek, "Multiphysics Modeling of Insert Cooling System for a 170-GHz, 2-MW Long-Pulse Coaxial-Cavity Gyrotron," IEEE Transactions on Electron Devices, vol. 66, n. 9 (2019) 4008-4015. DOI:10.1109/TED.2019.2928222. 

    • Sidorov A., Razin S., Veselov A., Vodopyanov A., Morozkin M., Glyavin M., "Breakdown of the heavy noble gases in a focused beam of powerful sub-THz gyrotron," Physics of Plasmas, vol. 26, n. 8 (2019) 083510. DOI:10.1063/1.5109526. 

    • S.V. Egorov, A.G. Eremeev, V.V. Kholoptsev, I.V. Plotnikov, K.I. Rybakov, A.A. Sorokin, Yu.V. Bykov, “On the correlation between the thermal instability onset and the flash sintering event,” Scripta Materialia, vol. 174 (2020) 68-71. DOI:10.1016/j.scriptamat.2019.08.032.

    • Tsvetkov A.I., Vodopyanov A.V., Mansfeld D.A., A.P. Fokin, “The Temperature Behavior of Microwave Absorption of Metal Oxide Powders When Heated by a 263-GHz Gyrotron Radiation,” J Infrared Milli Terahz Waves (2019). DOI:10.1007/s10762-019-00622-z.

    •  Aiello G., Scherer T., Avramidis K., et all, "Diamond Window Technology for Electron Cyclotron Heating and Current Drive: State of the Art,"Fusion Science and Technology, vol. 75, n. 7 (2019) 719-729. DOI:10.1080/15361055.2019.1643690.

    • Bratman V., Lurie Y., Oparina Y., Savilov A., "Capabilities of Terahertz Cyclotron and Undulator Radiation from Short Ultrarelativistic Electron Bunches," Instruments, vol. 3, n. 4 (2019). DOI:10.3390/instruments3040055.


    2018

    • Yamazaki S., Harata M., Idehara T., Konagaya K., Yokoyama G., Hoshina H., Ogawa Y., “Actin polymerization is activated by terahertz irradiation," Scientific Reports, vol. 8, no. 1 (2018). DOI:10.1038/s41598-018-28245-9.
    • Zavolsky N.A., Zapevalov V.E., Zuev A.S., Plankin O.P., Sedov A.S., Semenov E.S., "Analysis of the Methods of Discrete and Smooth Frequenc Tuning in Gyrotrons for Spectroscopy, on the Example of a Generator Operated in the 0.20–0.27 THz Frequency Range, “ Radiophysics and Quantum Electronics,vol. 61, n. 6 (2018) 436-444. DOI:10.1007/s11141-018-9905-4.
    • V.L. Bratman, Yu.K. Kalynov, O.P. Kulagin, A.N. Leontyev, P.B. Makhalov, V.N. Manuilov, I. V Osharin, A.V. Savilov, A.E. Fedotov, A.P. Fokin, A.V. Chirkov, “A Compact THz Source for Enhancing the Sensitivity of Nuclear Magnetic Resonance Spectroscopy with Dynamic Nuclear Polarization,” Bulletin of the Russian Academy of Sciences: Physics, vol. 82, n. 12 (2018) 1592–1595. Original Russian Text: V.L. Bratman, Yu.K. Kalynov, O.P. Kulagin, A.N. Leontyev, P.B. Makhalov, V.N. Manuilov, I.V. Osharin, A.V. Savilov, A.E. Fedotov, A.P. Fokin, A.V. Chirkov, 2018, published in Izvestiya Rossiiskoi Akademii Nauk, Seriya Fizicheskaya, 2018, Vol. 82, No. 12, pp. 1760–1765.DOI:10.3103/S1062873818120274.

    • I.V. Bandurkin, V.L. Bratman, Yu.K. Kalynov, Yu.S. Oparina, I.V. Osharin, N.A. Zavolsky, A.V. Savilov,  “Terahertz Gyrotrons at High Cyclotron Harmonics with Irregular Electrodynamic Systems,” Bulletin of the Russian Academy of Sciences: Physics, vol. 82, n. 12 (2018) 1582–1586. Original Russian Text: I.V. Bandurkin, V.L. Bratman, Yu.K. Kalynov, Yu.S. Oparina, I.V. Osharin, N.A. Zavolsky, A.V. Savilov, 2018, published in Izvestiya Rossiiskoi Akademii Nauk, Seriya Fizicheskaya, 2018, Vol. 82, No. 12, pp. 1748–1753. DOI:10.3103/S1062873818120250.
    • S.V. Kuzikov, A.V. Savilov, “Terahertz Gyrotrons at High Cyclotron Harmonics with Irregular Electrodynamic Systems,” Bulletin of the Russian Academy of Sciences: Physics, vol. 82, n. 12 (2018) 1596–1599. Original Russian Text: S.V. Kuzikov, A.V. Savilov, 2018, published in Izvestiya Rossiiskoi Akademii Nauk, Seriya Fizicheskaya, 2018, Vol. 82, No. 12, pp. 1766–1770.DOI:10.3103/S1062873818120298.

    • I.V. Bandurkin, I.S. Kurakin, Yu.S. Oparina, A.V. Savilov, V.L. Bratman, N. Balal, Yu. Lurie, “Terahertz Undulator Radiation of StabilizedDense Electron Beams”, Bulletin of the Russian Academy of Sciences: Physics, vol. 82, n. 12 (2018) 1587–1591. Original Russian Text: I.V. Bandurkin, I.S.Kurakin, Yu.S. Oparina, A.V. Savilov, V.L. Bratman, N. Balal, Yu. Lurie, 2018, published in Izvestiya Rossiiskoi Akademii Nauk, Seriya Fizicheskaya, 2018,Vol. 82, No. 12, pp. 1754–1759. DOI: 10.3103/S1062873818120262.
    • Oparina Yu.S., Savilov A.V., "Improvement of Mode Selectivity of High-Harmonic Gyrotrons by Using Operating Cavities with Short Output Reflectors," Journal of Infrared, Millimeter, and Terahertz Waves, vol. 39, n. 7 (2018) 595–613. DOI: /10.1007/s10762-018-0499-x.

    • Bykov Yu.V., Egorov S.V., Eremeev A.G., Kholoptsev V.V., Plotnikov I.V., Rybakov K.I., Sorokin A.A., Balabanov S.S., Belyaev A.V., “Ultra-rapid microwave sintering of pure and Y2O3doped MgAl2O4,” (23 May 2018). DOI:10.1111/jace.15788.

    • Kalynov Yu.K., Manuilov V.N., Zaslavsky V.Yu., "Influence of Perturbations in the Axial Symmetry on Formation of Helical Electron Beams in a System with the Reversed Magnetic Field,“ Journal of Infrared, Millimeter, and Terahertz Waves, (2018). DOI:10.1007/s10762-018-0508-0.

    • Ramopoulos V., Link, G., Soldatov, S., Jelonnek, J., “Industrial scale microwave applicator for high temperature alkaline hydrolysis of PET,” International Journal of Microwave and Wireless Technologies, (2018) 1-8. DOI:10.1017/S1759078718000727.

    • Hoffmann H., Jawla S., Shapiro M., Hanson G., Temkin R., "Grating Polarizer at 170 GHz for ECRH Systems: Low Power Tests and Simulations," IEEE Tran. on Antennas and Propagation, (28 June 2018). DOI:10.1109/TAP.2018.2851377.

    • Idehara T., Sabchevski S.P., "Development and Application of Gyrotrons at FIR UF," IEEE Transactions on Plasma Science, vol. 46, no. 7 (2018) 2452-2459. DOI: 10.1109/TPS.2017.2775678.

    • Glyavin M.Y., Ogawa I., Zotova I.V., N.S. Ginzburg, Fokin A.P., Sergeev A.S., Rozental R.M., Tarakanov V.P., Bogdashov A.A.,  Krapivnitskaia T.O., Manuilov V.N., Idehara T.,  "Frequency Stabilization in a Sub-Terahertz Gyrotron With Delayed Reflections of Output Radiation," IEEE Transactions on Plasma Science, vol. 46, no. 7 (2018) 2465-2469. DOI:10.1109/TPS.2018.2797480.

    • Ruess S., et al. “KIT coaxial gyrotron development: from ITER toward DEMO,” International Journal of Microwave and Wireless Technologies, vol.10, Special Issue 5-6 (EuMW 2017 Special Issue) June 2018 547-555. DOI: 10.1017/S1759078718000144. Open access:

    • Fedotov A.E., Rozental R.M., Zotova I.V., Ginzburg N.S., Sergeev A.S., Tarakanov V.P., Glyavin M.Yu., Idehara T., “Frequency Tunable sub-THz Gyrotron for Direct Measurements of Positronium Hyperfine Structure,” J Infrared Millimeter, and Terahertzz Waves (2018). DOI:10.1007/s10762-018-0522-2.

    • Fukunari M., Nusinovich G.S., Tatematsu Y., Saito T., Yamaguchi Y., "Saturation Effects in Frequency Pulling of Gyrotrons Operating in High-Order Axial Modes," IEEE Trans. on Plasma Science (2018). DOI:10.1109/TPS.2018.2849379.

    • Bakunin V.L., Guznov Yu.A., Denisov G.G., Zaitsev N.I., Zapevalov S.A., Kuftin A.N., Novozhilova Yu.V., Fokin A.P., Chirkov A.V., Shevchenko A.S., "An Experimental Study of the Influence of an External Signal on the Generation Mode of a Megawatt-Power Gyrotron," Technical Physics Letters, vol. 44, n. 6 (2018) 473-475. DOI:10.1134/S1063785018060020.

    • Nakamura Y., Komurasaki K., Fukunari M., Koizumi H., "Numerical analysis of plasma structure observed in atmospheric millimeter-wave discharge at under-critical intensity," Journal of Applied Physics, vol.124, n. 3 (2018)033303. DOI:10.1063/1.5023269.

    • Abramov I.S., Gospodchikov E.D.,  Shalashov A.G., “Extreme-Ultraviolet Light Source for Lithography Based on an Expanding Jet of Dense Xenon Plasma Supported by Microwaves,” {Phys. Rev. Applied,  vol. 10, n. 3 (2018) 034065. DOI:10.1103/PhysRevApplied.10.034065.

    • Sedov A.S., Zuev A.S., Semenov E.S., Bogdashov A.A., Fokin A.P., “The project of W-band gyrotron at third cyclotron harmonic with an annular diaphragm,” Results in Physics (Available online 3 August 2018). DOI:10.1016/j.rinp.2018.07.040.

    • Denisov G.G., Glyavin M.Yu., Fokin A.P., Kuftin A.N., Tsvetkov A.I., Sedov A.S., Soluyanova E.A., Bakulin M.I., Sokolov E.V., Tai E.M., Morozkin M.V., Proyavin M.D., Zapevalov V.E.,  "First experimental tests of powerful 250 GHz gyrotron for future fusion research and collective Thomson scattering diagnostics," Review of Scientific Instruments, vol. 89, n. 8 (2018) 084702. DOI:10.1063/1.5040242.

    • Denisov G.G., et al., "A 45-GHz/20-kW Gyrotron-Based Microwave Setup for the Fourth-Generation ECR Ion Sources," IEEE Trans. on Electron Devices, (06 August 2018). DOI: 10.1109/TED.2018.2859274.

    • Zavolsky N.A., Ilyakov E.V., Kalynov Yu.K., Kulagin I.S., Manuilov V.N., Shevchenko A.S., "High-Power Relativistic Milimeter-Wave Gyrotron Operating at the Second Cyclotron Harmonic," Radiophysics and Quantum Electronics, (2018). DOI:10.1007/s11141-018-9868-5.

    • Sidorov A., Golubev S., Razin S., Veselov A., Vodopyanov., Luchinin A., Glyavin M., "Gas discharge powered by the focused beam of the high-intensive electromagnetic waves of the terahertz frequency band," Journal of Physics D: Applied Physics, vol. 51, n.46 (2018) 464002. DOI:10.1088/1361-6463/aadb3c.

    • Mansfeld D., Vodopyanov A., Tokman M.D., Kiryuhin N., Yasnov D., Semenov V.E., "Plasma losses from mirror trap, initiated by microwave radiation under electron cyclotron resonance conditions," Plasma Physics and Controlled Fusion, (Manuscript online 24 August 2018). DOI:10.1088/1361-6587/aadcb5.

    • S. V. Samsonov, V. I. Belousov, Bogdashov A.A., Denisov G.G., Mishakin S.V., Sobolev D.I., "Quasi-Optical Orthomode Splitters for Input-Output of a Powerful W-Band Gyro-TWT," in IEEE Transactions on Electron Devices, (2018). DOI:10.1109/TED.2018.2866030.

    • Kovshov Y.S., Ponomarenko S.S., Kishko S.S., Likhachev A., Danik A., Mospan L.,  Steshenko S., Khutoryan E.M., Kuleshov A.N., “Effect of Mode Transformation in THz Clinotron,” J Infrared Millimeter, and Terahertz Waves, (First Online: 14 September 2018). DOI:10.1007/s10762-018-0534-y.

    • Vikharev A., Gorbachev A., Radishev D., "Physics and application of gas discharge in millimeter wave beams," Journal of Physics D: Applied Physics (2018). DOI:10.1088/1361-6463/aae3a3.

    • Vlasov S.N., Katin S.V., Koposova E.V. et al., “Quasioptical Three-Mirror Echelette Traveling-Wave Resonator with Frequency Tuning: Diffraction Theory and Experiment,” Radiophys Quantum El (26 September 2018). DOI:10.1007/s11141-018-9876-5.

    • Ben Moshe R., Bratman V.L., Zavolsky N.A., Kalynov Yu.K,  Fedotov A.E., Einat M., “Possibility of Effective High-Frequency Generation in Low-Voltage Gyrotrons at the Second Cyclotron Harmonic,” Radiophys Quantum Electronics (2018). DOI:10.1007/s11141-018-9882-7.

    • Qiu H., Kurihara T., Harada H., Kato K., Takano K., Suemoto T., Tani M.,  Sarukura N., Yoshimura M., Nakajima., “Enhancing THz magnetic near-field induced by metamaterial resonator with a tapered waveguide,” Optics Letters, vol. 43, n. 8 (2018) 1658-1661. DOI:DOI:10.1364/OL.43.001658.

    • Nusinovich G.S., Dumbrajs O., "Possible gyrotron operation in the "no start current" zone caused by the axial dependence of the phase of the resonator field," Physics of Plasmas, vol. 25, n. 9 (2018)093108. DOI:10.1063/1.5045317.

    • Shalashov A.G., Vodopyanov A.V., Abramov I.S., Sidorov A.V., Gospodchikov E.D., Razin S.V., Chkhalo N. I., Salashchenko N.N., Glyavin M.Yu., Golubev S.V., “Observation of extreme ultraviolet light emission from an expanding plasma jet with multiply charged argon or xenon ions,” Applied Physics Letters, vol. 113, n.15 (2018) 15. DOI: 10.1063/1.5049126.

    • Abubakirov E.B., Guznov Y.M., Kuzikov S.V., Shevchenko A.S., Vikharev A.A., Zapevalov S.A., "Quasi-Optical Input Mode Coupler for a Ka-Band Multimegawatt Gyroklystron," IEEE Trans. on Microwave Theory and Techniques, (2017) pp. 1-6. DOI:10.1109/TMTT.2017.2772917.
    • Glyavin M.Y., Ogawa I., Zotova I.V., Ginzburg N.S., Fokin A.P., Sergeev A.S., Rozental R.M., Tarakanov V.P., Bogdashov A.A., Krapivnitskaia T.O., Manuilov V.N., Idehara T., "Frequency Stabilization in a Sub-Terahertz Gyrotron with Delayed Reflections of Output Radiation," IEEE Trans. on Plasma Science, (2018) pp. 1-5. DOI: 10.1109/TPS.2018.2797480.
    • Sadia C.P., Lopez L.P., delos Santos R.M., Muldera J.E., Los Reyes A.E., Tumanguil M.A.C, Que C.T., Mag-usara V.K., Tani M., Somintac A.S., Estacio E.S., Salvador A.A., “Epitaxial growth of p-InAs on GaSb with intense terahertz emission under 1.55-μm femtosecond laser excitation,” Thin Solid Films, vol. 648 (2018) 46-49. DOI:10.1016/j.tsf.2017.12.022.
    • Bandurkin I.V., Bratman V.L., Kalynov Y.K., Osharin I.V., Savilov A.V., "Terahertz Large-Orbit High-Harmonic Gyrotrons at IAP RAS: Recent Experiments and New Designs," IEEE Trans. on Electron Devices, vol. 65, n. 6 (2018) 2287-2293. DOI: 10.1109/TED.2018.2797311.
    • Avramidis K.A., Bertinetti A., Albajar F., Cau F., Cismondi F., Gantenbein G., Illy S., Ioannidis Z.C., JelonnekJ., Legrand F., Pagonakis I.Gr., Rozier Y., Rzesnicki T., Savoldi L., Thumm M., Zanino R., "Numerical Studies on the Influence of Cavity Thermal Expansion on the Performance of a High-Power Gyrotron," IEEE Trans. on Electron Devices, (2018) pp. 1-8. DOI:10.1109/TED.2017.2782365.
    • Manuilov V.N., Samsonov S.V., Mishakin S.V., Klimov A.V., "Cusp Guns for Helical-Waveguide Gyro-TWTs of a High-Gain High-Power W-Band Amplifier Cascade," Journal of Infrared, Millimeter, and Terahertz Waves, (2018). DOI:10.1007/s10762-018-0473-7.
    • Golubev S.V., Skalyga V.A., Izotov I.V., Sidorov A.V., “Point-like neutron source based on high-current electron cyclotron resonance ion source with powerful millimeter wave plasma heating,” J. Phys.: Conf. Ser., vol. 946 (2018) 012024. DOI:10.1088/1742-6596/946/1/012024.
    • Balal N., Bratman V.L., Friedman A., “Evolution of dense spatially modulated electron bunches,” Physics of Plasmas, vol. 25 (2018) 033102. DOI:10.1063/1.4998790.
    • Dumbrajs O., Nusinovich G.S.,"Efficiency of gyrotrons with a tapered magnetic field in the regime of soft self-excitation," Physics of Plasmas, vol. 25, n. 1 (2018) 013121. DOI:10.1063/1.5019974.
    • Tsun-Hsu Chang, Hsin-Yu Yao, Bo-Yuan Su, Wei-Chen Huang, Yuan Wei, “Nonlinear oscillations of TM-mode gyrotrons,” Physics of Plasmas, vol. 24, n. 12 (2017)122109. DOI:10.1063/1.5008307.
    • Fokin A., Glyavin M., Golubiatnikov G., Lubyako L., “High-power sub-terahertz source with a record frequency stability at up to 1 Hz,” Scientific Reports, vol. 8 (2018) Article number: 4317, 6 pp. DOI:10.1038/s41598-018-22772-1.
    • Wu Ch, Pagonakis I.Gr., Avramidis K.A., Gantenbein G., Illy S., Thumm M., Jelonnek J., “Gyrotron multistage depressed collector based on E× B drift concept using azimuthal electric field. I. Basic design,” Physics of Plasmas, vol. 25 (2018) 033108. DOI: 10.1063/1.5016296.
    • Matsuki Y., Fujiwara T., “Advances in High-Field DNP Methods.” In: The Nuclear Magnetic Resonance Society of Japan (eds) Experimental Approaches of NMR Spectroscopy (2018, Springer, Singapore). DOI:10.1007/978-981-10-5966-7_4.
    • Neilson J.M., Iveset R.L., Schaubal S.C., Guss W.C., Rosenzweig G., Temkin R.J., Borchard P., "Design and High-Power Test of an Internal Coupler to HE₁₁ Mode in Corrugated Waveguide for High-Power Gyrotrons," IEEE Trans. on Electron Devices, (2018)  pp. 5. DOI: 10.1109/TED.2018.2805889.
    • Ishikawa Y., Ohya K., Fujii Y., Fukuda A., Miura, S., Mitsudo S., Yamamori H., Kikuchi H., ”Development of Millimeter Wave Fabry-Pérot Resonator for Simultaneous Electron-Spin and Nuclear Magnetic Resonance Measurement,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 39, n. 4 (2018) 387-398. DOI: 10.1007/s10762-018-0464-8.
    • Kovshov Y.S., Ponomarenko S.S., Kishko S.A., Khutoryan E.M., Kuleshov A.N., “Numerical Simulation and Experimental Study of Sub-THz and THz CW Clinotron Oscillators,” IEEE Trans. on Electron Devices, (2018). DOI: 10.1109/TED.2018.2792258.
    • Rozental R.M., Zotova I.V., Ginzburg N.S., Sergeev A.S., Tarakanov V.P., “Chaotic Generation in a W-Band Gyroklystron With Delayed Feedback,” IEEE Trans. on Plasma Science, (2018). DOI: 10.1109/TPS.2018.2797601.
    • Ginzburg N.S., Malkin A.M., Sergeev A.S., Fil'chenkov S.E., Zaslavsky V.Yu., “Highly selective surface-wave resonators for terahertz frequency range formed by metallic Bragg gratings,” Physics Letters A, vol. 382, n. 13 (2018) 925-929. DOI:10.1016/j.physleta.2018.01.029.
    • Pagonakis G., Illy S., Ioannidis Z.C., Rzesnicki T., Avramidis K.A., Gantenbein G., Kobarg T., Piosczyk B., Thumm M., Jelonnek J., "Numerical Investigation on Spent Beam Deceleration Schemes for Depressed Collector of a High-Power Gyrotron," IEEE Trans. on Electron Devices, (2018)6 pp. DOI:10.1109/TED.2017.2784185.
    • Ioannidis Z.C., Pagonakis I.G., AvramidisK.A., Illy S., Rzesnicki T., TigelisI G., Gantenbein G., Jelonnek J., "An Improved Diagnostic Device for Magnetron Injection Guns of High-Power Gyrotrons," IEEE Trans. on Electron Devices, (2018) 7 DOI:10.1109/TED.2018.2793341.
    • Manuilov V.N., Samsonov S.V., Mishakin S.V., Klimov A.V., Leshcheva K.A., “Cusp Guns for Helical-Waveguide Gyro-TWTs of a High-Gain High-Power W-Band Amplifier Cascade” J Infrared Milli Terahz Waves (2018). DOI: 10.1007/s10762-018-0473-7.
    • Fukunari M., Yamaguchi T., Nakamura Y., Komurasaki K., Oda Y., KajiwaraK., Takahashi K., Sakamoto K., “Thrust generation experiments on microwave rocket with a beam concentrator for long distance wireless power feeding,” Acta Astronautica, vol. 145 (2018) 263-267. DOI:,10.1016/j.actaastro.2018.01.057.
    • Manuilov V.N., Morozkin M.V., Luksha O.I., Glyavin M.Yu., “Gyrotron collector systems: Types and capabilities,” Infrared Physics & Technology, Available online 30 March 2018, ISSN 1350-4495. DOI:10.1016/j.infrared.2018.03.024.
    • Lin M.C., Illy S., Avramidis K.A., Thumm M., Jelonnek J,, "Study on After Cavity Interaction in a 140-GHz Model TE0.3 Gyrotron Using 3-D CFDTD PIC Simulation," IEEE Trans. on Plasma Science, (2018) pp. 1-6. DOI:10.1109/TPS.2018.2805521.
    • T. Franke, Agostinetti P., Aiello G., Avramidis K., et al., "Review of the Innovative H&CD Designs and the Impact of Their Configurations on the Performance of the EU DEMO Fusion Power Plant Reactor," IEEE Trans. on Plasma Science, (2018) pp. 1-8. DOI:10.1109/TPS.2018.2800405.
    • Sabchevski S., Idehara T., Damyanova M., Zhelyazkov I., Balabanova E., Vasileva E., “Modelling, simulation and computer-aided design (CAD) of gyrotrons for novel applications in the high-power terahertz science and technologies,” Journal of Physics: Conf. Series, vol. 992 (2018) 012001. DOI:10.1088/1742-6596/992/1/012001.
    • Bykov Yu.V., Egorov S.V., Eremeev A.G., Plotnikov I.V., Rybakov K.I., Sorokin A.A., Kholoptsev V.V., "Flash Sintering of Oxide Ceramics under Microwave Heating," Technical Physics, vol. 63, n. 3 (2018) 391-397. DOI:10.1134/S1063784218030052.
    • Aripin H., Mitsudo S., Sudiana I. N., Nundang B., Sabchevski S., “Volumetric Microwave Heating of Mullite Ceramic Using a 28 GHz Gyrotron,” International Journal of Materials Science and Engineering, vol. 6, n. 1 (2018) 32-38. DOI:10.17706/ijmse.2018.6.1.32-38.
    • delos Santos, R., Mag-usara, V., Tuico, A., Copa V., Salvador A., Yamamoto K., Somintac A., Kurihara K., Kitahara K., Tani M., Estacio E., “Metal-Coated <100>-Cut GaAs Coupled to Tapered Parallel-Plate Waveguide for Cherenkov-Phase-Matched Terahertz Detection: Influence of Crystal Thickness,” J Infrared Millimeter, and Terahz Waves (2018). DOI:10.1007/s10762-018-0487-1.
    • Bogdashov A.A., Glyavin M.Y., Rozental’ R.M., Fokin A.P., Tarakanov V.P., “Narrowing of the Emission Spectrum of a Gyrotron with External Reflections,” Tech. Phys. Lett., vol. 44 (2018) 221. DOI:10.1134/S1063785018030069.
    • Sobolev D.I., Denisov G.G., “A Waveguide Antenna with an Extended Angular Range for Remote Steering of Wave-Beam Direction,” Tech. Phys. Lett., vol. 44 (2018) 213. DOI:10.1134/S1063785018030112.
    • Ginzburg N.S., Denisov G.G., Vilkov M.N., Zotova I.V., Sergeev A.S., Rozental  R.M., Samsonov S.V., Mishakin Marek A., Jelonnek J., "Ultrawideband Millimeter-Wave Oscillators Based on Two Coupled Gyro-TWTs With Helical Waveguide," IEEE Trans. on Electron Devices, (2018). DOI:10.1109/TED.2018.2801021.
    • Garavaglia S., Aiello G., Alberti S., Avramidis K. et al., “ EU DEMO EC system preliminary conceptual design, Fusion Engineering and Design,” Available online 4 May 2018. DOI:10.1016/j.fusengdes.2018.04.097.
    • Girka I., Pavlenko I.V., Thumm M., “Two mechanisms of resonance overlapping in excitation of azimuthal surface waves by rotating relativistic electron beams,” Physics of Plasmas, vol. 25, n. 5 (2018) 052111. DOI:10.1063/1.5025712.
    • Girka I.O., PavlenkoI.V., Thumm M.,"Excitation of higher radial modes of azimuthal surface waves in the electron cyclotron frequency range by rotating relativistic flow of electrons in cylindrical waveguides partially filled by plasmas," Physics of Plasma, vol. 25, n. 5 (2018) 052109. DOI: 10.1063/1.5028372.
    • Oparina Y.S., Savilov A.V., "Improvement of Mode Selectivity of High-Harmonic Gyrotrons by Using Operating Cavities with Short Output Reflectors," Journal of Infrared, Millimeter, and Terahertz Waves, (2018). DOI:10.1007/s10762-018-0499-x.
    • Fujii Y., Ishikawa Y., Ohya K., Miura S., Koizumi Y., Fukuda A., Omija T., Mitsudo S., Mizusaki T., Matsubara A., Yamamori H., “Development of Very-Low-Temperature Millimeter-Wave Electron-Spin-Resonance Measurement System,” Appl Magn Reson (2018). DOI:10.1007/s00723-018-1027-9.
    • Thumm M., “State-of-the-art of high power gyro-devices and free electron masers. Update 2017,” KIT Scientific Reports,  7750 (Jun 2018) 1–198. DOI: 10.5445/KSP/1000081551.
    • Idehara T., Ogawa I., Wagner D., Thumm M., Kosuga K., Sabchevski S.P., "High Purity Mode CW Gyrotron Covering the Subterahertz to Terahertz Range Using a 20 T Superconducting Magnet," IEEE Trans. on Electron Devices, (2018) 6 pp. DOI:10.1109/TED.2018.2843446.
    • Zotova I.V., Denisov G.G., Ginzburg N.S., Sergeev A.S., Rozental R.M., “Time-domain theory of low-Q gyrotrons with frequency-dependent reflections of output radiation,” Physics of Plasmas, vol. 25 (2018) 013104. DOI: 10.1063/1.5008666.
    • Avramidis K.A., et al., "Numerical Studies on the Influence of Cavity Thermal Expansion on the Performance of a High-Power Gyrotron," IEEE Trans. on Electron Devices, (2018). DOI:10.1109/TED.2017.2782365.
    • Chelis I.G., Avramidis K.A., Ioannidis Z.C. Tigelis I.G., "Improved Suppression of Parasitic Oscillations in Gyrotron Beam Tunnels by Proper Selection of the Lossy Ceramic Material," IEEE Trans. on Electron Devices, (2018) pp. 1-7. DOI: 10.1109/TED.2017.2784198.
    • Tanaka K., Nishiura N., Kubo S., Shimozuma T., Saito T., Moseev D., Abramovic I., "154 GHz collective Thomson scattering in LHD," Journal of Instrumentation, vol. 13, n. 1 (2018) DOI:10.1088/1748-0221/ 13/01/C01010.
    • Pagonakis I.G., Illy S., Ioannidis Z.C., Rzesnicki T., Avramidis K.A., Gantenbein G., Kobarg T., Piosczyk B., Thumm M., Jelonnek J., "Numerical Investigation on Spent Beam Deceleration Schemes for Depressed Collector of a High-Power Gyrotron, IEEE Trans. on Electron Devices, (2018) pp. 1-6. DOI:10.1109/TED.2017.2784185.
    • Kovshov Y.S., Ponomarenko S.S., Kishko S.A., Khutoryan E.M., Kuleshov A.N., "Numerical Simulation and Experimental Study of Sub-THz and THz CW Clinotron Oscillators," IEEE Trans. on Electron Devices, (2018) pp. 1-6. DOI: 10.1109/TED.2018.2792258.
    • Dumbrajs O., Nusinovich G.S., “Efficiency of gyrotrons with a tapered magnetic field in the regime of soft self-Excitation,” Physics of Plasmas, vol. 25 (2018) 013121. DOI: 10.1063/1.5019974.
    • Z. C. Ioannidis et al., "An Improved Diagnostic Device for Magnetron Injection Guns of High-Power Gyrotrons,"  IEEE Trans. on Electron Devices, (2018). DOI:10.1109/TED.2018.2793341.
    • Abubakirov E.B., Denisenko A.N., Konyushkov A.P., Osharin I.V., Rozental R.M., Tarakanov V.P., Fedotov A.E., "Developing a high-current relativistic millimeter-wave gyrotron," Bulletin of the Russian Academy of Sciences: Physics, vol. 82, n.1 (2018) 48-52. DOI:10.3103/S1062873818010033.
    • Matsuki Y., Fujiwara T., “Advances in High-Field DNP Methods,” In: The Nuclear Magnetic Resonance Society of Japan (eds) Experimental Approaches of NMR Spectroscopy (Springer, Singapore, 2018) pp. 91-134. DOI:10.1007/978-981-10-5966-7_4. Print ISBN, 978-981-10-5965-0, Online ISBN 978-981-10-5966-7.
    • Mishakin S.V., Samsonov S.V., "An Approach to Thermal Analysis of Helically Corrugated Waveguide Elements of Vacuum Electron Devices," IEEE Trans. on Microwave Theory and Techniques, (2018). DOI: 10.1109/TMTT.2018.2873362.
    •  Zapevalov V.E., “Non-Canonical Gyrotrons,” Radiophysics and Quantum Electronics, (2018). DOI:10.1007/s11141-018-9888-1.

    • Girka I., Kondratenko V., Thumm M., “Higher radial modes of azimuthal surface waves in magnetoactive cylindrical plasma waveguides,”Journal of Plasma Physics, vol. 84 n. 6 (2018) 905840603. DOI: 10.1017/S0022377818001101.

    • Knirck S., Yamazaki J., Okesaku Y., Asai S., Idehara T., Inada T., "First results from a hidden photon dark matter search in the meV sectorusing a plane-parabolic mirror system," Journal of Cosmology and Astroparticle Physics, vol. 2018, n. 11 (2018).DOI:10.1088/1475-7516/2018/11/031.

    • Rumyantsev V.V., Dubinov A.A Fokin., A.P.,  Utochkin V.V., Glyavin  M.Yu., Morozov S.V.,  “Doubling of gyrotron radiation frequency due to nonlinear susceptibility in A3B5 semiconductors,” EPJ Web Conf., vol. 195 (2018)02010. DOI:10.1051/epjconf/201819502010.

    • Glyavin M.Yu., Denisov G.G., Khazanov E.A., “From millimeter to microns – IAP RAS powerful sources for various applications,” EPJ Web Conf.,vol. 195 (2018) 00001. DOI: 10.1051/epjconf/201819500001.

    • Bogdashov A.,  Fokin A.,  Fedotov A., Glyavin M.,  Morozkin M.,  Novozhilova Yu.,  Proyavin M.,  Rozental R., Sedov A.,  Tsvetkov A., Zotova I., Denisov G., “Frequency control in subterahertz gyrotrons,” EPJ Web Conf., vol. 195 (2018) 01005. DOI:10.1051/epjconf/201819501005.

    • Morozkin M., Denisov G., Tai E., Soluyanova E., Sedov A., Fokin A., Kuftin A., Tsvetkov A., Bakulin M., Sokolov E., Malygin V., Proyavin M.,  Zapevalov V., Mocheneva O., Glyavin M., “Development of the Prototype of High Power Sub-THz Gyrotron for Advanced Fusion Power Plant (DEMO),” EPJ WebConf., vol. 195 (2018) 01008. DOI:10.1051/epjconf/201819501008.

    • Zavolsky N.A., Zapevalo V.E., Zuev A.S. et al., “Analysis of the Methods of Discrete and Smooth Frequency Tuning in Gyrotrons for Spectroscopy,on the Example of a Generator Operated in the 0.20–0.27 THz Frequency Range,” Radiophys Quantum Electronics, (2018).DOI:10.1007/s11141-018-9905-4.
    • Fedotov A. E. , Zotova I. V.  , Glyavin M. Yu. , Rozental R. M., Zuev A. S.  , Ginzburg N. S.  , Sergeev A. S.  , Idehara T., “Frequency Tunable sub-THz Gyrotrons for Spectroscopy Applications,” EPJ Web Conf., vol. 187 (2018) 01025.DOI: 10.1051/epjconf/20181870102.
    • Bertinetti A., Albajar F., Avramidis K.A., Cau F., Cismondi F., Gantenbein G., Jelonnek J., Kalaria P.C., Ruess S., Rzesnicki T., Savoldi L., Zanino R., “Analysis of an actively-cooled coaxial cavity in a 170 GHz 2 MW gyrotron using the multi-physics computational tool MUCCA,” FusionEngineering and Design, (2018). DOI: 10.1016/j.fusengdes.2018.11.033.

    • Bykov Yu.V., Eremeev A.G., Egorov S.V., Kholoptsev V.V., Plotnikov I.V., Rybakov K.I.,  Sorokin A.A., “Ultra-rapid microwave sintering,” Journal of Physics: Conference Series, vol.1115 (2018) 042005 . DOI: 10.1088/1742-6596/1115/4/042005.

    • Bratman V.L., Fedotov A.E., Kalynov Yu.K., Manuilov V.N., “Prospective THz Gyrotrons for High-Field Magneto-Resonance Spectroscopy,” EPJWeb Conf., vol. 95 (2018) 01003. DOI: 10.1051/epjconf/201819501003.

    • Kuzikov S.V., Savilov A.V., "Regime of "multi-stage" trapping in electron masers,"Physics of Plasmas, vol. 25, n.11 (2018) 113114. DOI:10.1063/1.5049880.

    • Rozental R.M., Zotova I.V., Ginzburg N.S., Sergeev A.S., Tarakanov V.P., “Generation of Electromagnetic Rogue-Waves in Submillimeter-BandGyrotrons,” J Infrared Milli Terahz Waves, vol. 40, n.2 (2018) 150–157. DOI:10.1007/s10762-018-0561-8.

    • Gantenbein G., Avramidis K., Illy S., Ioannidis Z.C., Jin J., Jelonnek J., Kalaria P., Pagonakis I.Gr., Ruess S., Ruess T., Rzesnicki T.,Thumm M., Wu C., “New trends of gyrotron development at KIT: An overview on recent investigations,” Fusion Engineering and Design, (2018).DOI:10.1016/j.fusengdes.2018.12.063.

    •  Kovshov Y. S., Ponomarenko S.S., Kishko S.S., Likhachev A., Danik A., Mospan L., Steshenko S., Khutoryan E.M., KuleshovA.N., "Effect of Mode Transformation in THz Clinotron," Journal of Infrared, Millimeter, and Terahertz Waves, vol. 39, n. 11 (2018) 1055-1064.DOI: 10.1007/s10762-018-0534-y.

    •  Wu C., Pagonakis I. G., Avramidis K. A., Gantenbein G., Illy S., Thumm M.,  Jelonnek J., “Gyrotron multistage depressed collector based on E×B drift concept using azimuthalelectric field, I. Basic design," Physics of Plasmas, 2vol. 5 n. 3 (2018) 033108. DOI:10.1063/1.5016296.

       

       

    2017

    • Proyavin M.D., Glyavin M.Yu., Manuilov V.N., “Magnetically shielded electron-optical system of a continuous gyrotron with an operating frequency of 24 GHz,” Journal of Communications Technology and Electronics, vol. 62, n. 10 (2017) 1165-1171. DOI:10.1134/S1064226917100126.
      • Gantenbein G., Albajar F., Alberti S., Avramidis K., et al. “Experimental Results of the EU ITER Prototype Gyrotrons,” EPJ Web Conf., vol. 157 (2017) 03016. DOI: 10.1051/epjconf/201715703016
      • Rozental R.M., Ginzburg N.S., Sergeev A.S., Zotova I.V., Fedotov A.E., Tarakanov V.P., “Gyrotron generation of broadband chaotic radiation under overlapping of high- and low-frequency resonances,” Technical Physics, vol. 62, n. 10 (2017) 1562-1568. DOI:10.1134/S106378421710019X.
      • Ivanov O., Kuzikov S.V., Vikharev A.A., Vikharev A.L., Lobaev M.A., “The Diamond Window with Boron-Doped Layers for the Output of Microwave Radiation at High Peak and Average Power Levels,” Radiophys Quantum Electronics (2017). DOI:10.1007/s11141-017-9809-8.
      • Melnikova M.M., Rozhnev A.G., Ryskin N.M., Tatematsu Y., Fukunari M., Yamaguchi Y., Saito T., “Electromagnetic Modeling of a Complex-Cavity Resonator for the 0.4-THz Second-Harmonic Frequency-Tunable Gyrotron,” IEEE Trans. on Electron Devices, (2017). DOI: 10.1109/TED.2017.2764874.
      • Toda Y., Ishiyama S., Khutoryan E., Idehara T., Matsuishi S., Sushko P.V., Hosono H., “Rattling of Oxygen Ions in a Sub-Nanometer Sized Cage Convert Terahertz Radiation to Visible Light,” ACS Nano, (2017). DOI: 10.1021/acsnano.7b06277.
      • Yuvaraj S., Illy S., Kartikeyan M.V., “Electron Gun and Output Coupling System for a 220-/251.5-GHz, 2-MW Triangular Corrugated Coaxial Cavity Gyrotron,” IEEE Trans. Electron Devices, (2017). DOI: 10.1109/TED.2017.2764942.
      • Khutoryan E.M., Kovshov Yu.S., Likhachev A.S., Ponomarenko S.S., Kishko S.A., Lukin K.A., Zavertanniy V.V., Kudinova T.V.. Vlasenko S.A., Kuleshov A.N., Idehara T., "Excitation of Hybrid Space-Surface Waves in Clinotrons with Non-uniform Grating," Journal of Infrared, Millimeter, and Terahertz Waves, (2017). DOI:10.1007/s10762-017-0453-3.
      • Goldenberg A.L., Glyavin M.Yu., Leshcheva K.A., Manuilov V.N., "Nonadiabatic Electron-Optical System of a Technological Gyrotron," Radiophysics and Quantum Electronics, vol 60, n. 5 (2017) 395-400. DOI:10.1007/s11141-017-9808-9.
      • Bratman V.L., Fedotov A.E., Fokin A.P., Glyavin M.Yu., Manuilov V.N., and Osharin I.V., “Operation of a sub-terahertz CW gyrotron with an extremely low voltage,” Physics of Plasmas, vol. 24, n. 11 (2017) 113105. DOI:10.1063/1.5000481.
      • Kalaria P.C., “Feasibility and Operational Limits for a 236 GHz Hollow-Cavity Gyrotron for DEMO,” Institut für Hochleistungsimpuls- und Mikrowellentechnik (IHM), Dissertation, (2017). ISBN: 978-3-7315-0717-8. DOI: 10.5445/KSP/1000073581.
      • Bratman V.L., Fedotov A.E., Kalynov Y.K., Osharin I.V., Zavolsky N.A., "Smooth Wideband Frequency Tuning in Low-Voltage Gyrotron With Cathode-End Power Output," IEEE Trans. on Electron Devices,vol. 64, n.12 (2017) 5147-5150. DOI:10.1109/TED.2017.2766281.
      • Samsonov S.V., Denisov G.G., Mishakin S.V., “3D simulations of a Ka-band gyro-TWT with power up to 10 kW from the cathode to the end of interaction space,” Zhurnal Radioelektroniki (Journal of Radio Electronics), n. 11 (2017) (In Russian).
      • Dumbrajs O., Idehara T., "Theoretical Study on the 1.185-THz Third Harmonic Gyrotron," Journal of Infrared, Millimeter, and Terahertz Waves, (2017) pp. 6. DOI:10.1007/s10762-017-0459-x.
      • Belousov V.I., Vershkov V.A., Denisov G.G., et al., “A five-channel quasi-optical multiplexer of 12- to 90-GHz frequency range,” Tech. Phys. Lett. vol. 43 (2017) DOI:10.1134/S1063785017110189
      • Idehara T., Sabchevski S.P. "Development and Application of Gyrotrons at FIR UF," IEEE Transactions on Plasma Science, (2017) pp. 8. DOI: 10.1109/TPS.2017.2775678.
      • Afalla J.P.C., de los Reyes A., Mag-usara V.K., Lopez L.P., Yamamoto K., Tani M., Somintac A.S., Salvador A.A., Estacio E.S., "Defect-related temperature dependence of THz emission from GaAs/AlGaAs MQWs grown on off- and on-axis substrates," AIP Advances, vol. 7, n. 12 (2017)125210. DOI:10.1063/1.5004597.
      • Nanni E., Jawla S., Lewis S.M., Shapiro M.A., Temkin R.J., "Photonic-band-gap gyrotron amplifier with picosecond pulses," Applied Physics Letters, vol. 111, n. 23 (2017)233504. DOI:10.1063/1.5006348
      • Tsun-Hsu Chang, Hsin-Yu Yao, Bo-Yuan Su, Wei-Chen Huang, and Bo-Yuan Wei, “Nonlinear oscillations of TM-mode gyrotrons,” Physics of Plasmas, vol. 24 (2017) 122109. DOI:10.1063/1.5008307.
      • Ishikawa Y., Ohya K., Fujii Y., Koizumi Y., Miura S., Mitsudo S., Fukuda A., Asano T., Mizusaki T., Matsubara A., Kikuchi H., Yamamori H., "Development of a Millimeter-Wave Electron-Spin-Resonance Measurement System for Ultralow Temperatures and Its Application to Measurements of Copper Pyrazine Dinitrate," Journal of Infrared, Millimeter, and Terahertz Waves, (2017). DOI:10.1007/s10762-017-0460-4.
      • Abubakirov E.B.,  Guznov Y.M.,  Kuzikov S.V.,  Shevchenko A.S., Vikharev A.A., Zapevalov S.A., "Quasi-Optical Input Mode Coupler for a Ka-Band Multimegawatt Gyroklystron," IEEE Trans. on Microwave Theory and Techniques, (2017) DOI:10.1109/TMTT.2017.2772917.
      • Ginzburg N.S., Vilkov M.N., Kocharovskaya E.R., Sergeev A.S., "Generation of high-power broadband terahertz radiation during stimulated backscattering of the pump wave by an intense relativistic electron beam," Physics of Plasmas, vol. 24, n. 12 (2017) 123112. DOI:10.1063/1.5003899.
      • Dumbrajs O., Nusinovich G.S., “Efficiency of gyrotrons with a tapered magnetic field in the regime of soft self-Excitation,” Physics of Plasmas, vol. 25 (2018) 013121 (2018). DOI: 10.1063/1.5019974.
      • Abubakirov E.B., Denisenko A.N., Konyushkov A.P., Osharin I.V., Rozental R.M., Tarakanov V.P., Fedotov A.E., "Developing a high-current relativistic millimeter-wave gyrotron," Bulletin of the Russian Academy of Sciences: Physics, vol. 82, n.1 (2018) 48-52. DOI:10.3103/S1062873818010033.
      • Ginzburg N.S., Denisov G.G., Vilkov M.N., Sergeev A.S., Zotova I.V., Samsonov S.V., Mishakin S.V., “Generation of trains of ultrashort microwave pulses by two coupled helical gyro-TWTs operating in regimes of amplification andnonlinear absorption,” Phys. Plasmas, 24 (2017) 023103. DOI:10.1063/1.4975084.
    • Samsonov S.V., Bogdashov A.A., Denisov G.G., Gachev I.G., Mishakin S.V., "Cascade of Two W-Band Helical-Waveguide Gyro-TWTs With High Gain and Output Power: Concept and Modeling," IEEE Trans. on Electron Devices, (2017) 5 pp. DOI: 0.1109/TED.2016.2646065.
    • Baghel G.S., Kartikeyan M.V., Thumm M.K., "A 220/247.5/275-GHz, 1.0-MW, Triple Frequency Regime Gyrotron," IEEE Trans. on Electron Devices , (2017) 7pp. DOI: 10.1109/TED.2017.2666084.
    • Ceccuzzi S., Doria A., Gallerano G.P., Ravera G.L., Spassovsky I., Ginzburg N.S., Glyavin M.Yu., Peskov N.Yu., Savilov A.V., “Traditional vs. advanced Bragg reflectors for oversized circular waveguide, Fusion Engineering and Design,” (2017) 4 pp. DOI:10.1016/j.fusengdes.2017.02.059.
    • Zhang J., Illy S., Pagonakis I.Gr., Rzesnicki T., et al., "Evaluation and Influence of Gyrotron Cathode Emission Inhomogeneity," IEEE Trans. on Electron Devices, vol. 64, n. 3 (2017) 1315-1322. DOI:10.1109/TED.2017.2655147. 
    • Ginzburg N.S., Denisov G.G., Vilkov M.N., Sergeev A.S., Zotova I.V., Samsonov S.V.,  Mishakin S.V., “Generation of trains of ultrashort microwave pulses by two coupled helical gyro-TWTs operating in regimes of amplification and nonlinear absorption,” Physics of Plasmas, vol. 24, n. 2 (2017) 023103. DOI: 10.1063/1.4975084.
    • Bandurkin I.V., Glyavin M.Yu., Zavolsky N.A., Kalynov Yu.K., Osharin I.V., Savilov A.V., "Use of Quasiregular Resonator Cavities with Short Phase Correctors in Gyrotrons Operated at Higher Cyclotron Harmonics", Radiophysics and Quantum Electronics, vol. 59, n. 8–9 (2017) 655-666. DOI:0.1007/s11141-017-9732-z.
    • Ginzburg N.S., Denisov G.G., Abubakirov E.B., Vilkov M.N., Zotova I.V., Sergeev A.S., “Generators of High-Power Ultrashort Microwave Pulses with a Saturable Absorber in a Feedback Circuit,” Radiophysics and Quantum Electronics, vol. 59, n. 8-9 (2017) 613-628. DOI:10.1007/s11141-017-9728-8.
    • Khozin M.A., Denisov G.G., Belousov V.I., “Improving the Efficiency of Quasi-Optical Bragg Reflectors," Radiophysics and Quantum Electronics, vol. 59, n. 8-9 (2017) 667-673. DOI: 10.1007/s11141-017-9733-y. 
    • Bakunin V.L., Denisov G.G., Novozhilova Yu.V., Fokin A.P., “Mode Competition Effect on Frequency Locking of a Multimode Gyrotron by a Monochromatic External Signal,” vol. 59, n. 8-9 (2017) 638-647. DOI: 10.1007/s11141-017-9730-1.
    • Egorov S.V., Bykov Yu.V., Eremeev A.G., Sorokin A.A., Serov E.A., Parshin V.V., Balabanov S.S., Belyaev A.V., Novikova A.V., Permin D.A., “Millimeter-Wavelength Radiation Used to Sinter Radiotransparent MgAl2O4 Ceramics,” Radiophysics and Quantum Electronics, (2017) 1573-9120. DOI:10.1007/s11141-017-9736-8.
    • Koshurinov Yu.I., Lubyako L.V., Petelin, M. I., Soikin O.V, “A band-stop filter in the form of a quasi-optical resonator with a corrugated mirror,” Instruments and Experimental Techniques, vol. 60, n. 1 (2017) 61-63. DOI: 10.1134/S0020441 217010079. 
    • Abubakirov E.B., Chirkov A.V.; Denisov G.G., Guznov Y.M., Kornishin S.Y., Leontyev A.N.,  Plankin O.P., Rozental R.M., Sedov A.S., Semenov E.S., Tarakanov V.P.,  Zavolsky N.A., Zapevalov S.A., Zapevalov V.E., "W-Band 5 MW Pulse Relativistic Gyrotron," IEEE Trans. on Electron Devices (2017) 3pp. DOI: 10.1109/TED.2017.2664106. 
    • Pagonakis I.Gr., Avramidis K.A., Gantenbein G., Rzesnicki T., Samartsev A., Jelonnek J., “Magnetic field profile analysis for gyrotron experimental investigation,” Physics of Plasmas, vol. 24 (2017) 33102. DOI:10.1063/1.4977460.
    • Idehara T., Khutoryan E.M., Ogawa I., Matsuki Y., Fujiwara T., Invited paper: “Modulation and Stabilization of the Output Power and Frequency of FU Series Gyrotrons,” Terahertz Science and Technology, vol. 9, n. 4 (Dec. 2016) 117-130. DOI: 10.11906/TST.117-130.2016.12.12.
    • Khutoryan E.M., Idehara, T., Kuleshov A.N., Tatematsu Y., Yamaguchi Y., Matsuki Y., Fujiwara T. "Simultaneous Stabilization of Gyrotron Frequency and Power by PID Double Feedback Control on the Acceleration and Anode Voltages," Journal of Infrared, Millimeter, and Terahertz Waves, (2017) 11 pp. DOI:10.1007/s10762-017-0374-1.
    • Khutoryan E.M., Idehara T., Melnikova M.M., Ryskin N/M., Dumbrajs O., “Influence of Reflections on Frequency Tunability and Mode Competition in the Second-Harmonic THz Gyrotron,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 38, n. 8 (2017) 824–837. DOI:10.1007/s10762-017-0378-x.
    • Girka I.O., Thumm M., "Excitation of Electromagnetic Waves Above the Upper-Hybrid Frequency by Internal Gyrating Electron Beam in a Coaxial Waveguide," IEEE Trans. on Plasma Science , (2017) 8 pp. DOI:10.1109/TPS.2017.2671024.
    • Novozhilova Yu.V., Denisov G.G., Glyavin M.Yu., Ryskin N.M., Bakunin V.L., Bogdashov A.A., Melnikova M.M., Fokin A.P., “Gyrotron frequency stabilization under the influence of external monochromatic signal or wave reflected from the load: Review,” Izvestiya VUZ. Applied Nonlinear Dynamics, vol. 25, n. 1 (2017) 5–34. DOI: 10.18500/0869-6632-2017-25-1-5-34.
    • Rzesnicki T., Albajar F., Alberti S., Avramidis K.A., Bin W., Bonicelli T., Braunmueller F., Bruschi A., Chelis J., Frigot P.-E., Gantenbein G., Hermann V., Hogge J.-P., Illy S., Ioannidis Z.C., Jin J., Jelonnek J., Kasparek W., Latsas G.P., Lechte C., Lontano M., Kobarg T., Pagonakis I.G., Rozier Y., Schlatter C., Schmid M., Tigelis I.G., Thumm M., Tran M.Q., Vomvoridis J.L., Zisis A., “Experimental verification of the European 1 MW, 170 GHz industrial CW prototype gyrotron for ITER,” Fusion Engineering and Design, (Available online 20 February 2017). DOI:10.1016/j.fusengdes.2017.02.021.
    • Schmid M., Bader M., Bourgeois T., Epp A., Gantenbein G., Iten M., Jelonnek J., Kobarg T., Leonhardt W., Mellein D., Rzesnicki T., “The 10 MW EPSM modulator and other key components for the KIT gyrotron test facility FULGOR,” Fusion Engineering and Design, Available online 24 March 2017. DOI:10.1016/j.fusengdes.2017.02.035.
    • Bratman V.L., Fedotov A.E., Kalynov Y.K., Makhalov P.B., Osharin I.V., "Numerical Study of a Low-Voltage Gyrotron ("Gyrotrino") for DNP/NMR Spectroscopy," IEEE Trans. on Plasma Science, (2017) pp. 5. DOI:10.1109/TPS.2017.2673550.
    • Vodopyanov A.V., Glyavin M.Yu., Golubev S.V., Luchinin A.G., Razin S.V., Safronova M.I., Sidorov A.V., Fokin A.P., “Plasma density in discharge sustained in inhomogeneous gas flow by high-power radiation in the terahertz frequency range,"nTechnical Physics Letters, vol. 43, n. 2 (2017) 186-189. DOI:10.1134/S1063785017020286.
    • Pagonakis I.Gr., Gantenbein G., Illy S., Thumm M., Jelonnek J., “Conceptual designs of E × B multistage depressed collectors for gyrotrons,” Physics of Plasmas, vol. 24, n. 4 (2017) 043102. DOI:10.1063/1.4979291.
    • Saito T., Yamaguchi Y., Tatematsu Y., Fukunari M., Hirobe T., Tanaka S., Shinbayashi R., Shimozuma T., Kubo S., Tanaka K., Nishiura M., “Development of 300 GHz Band Gyrotron for Collective Thomson Scattering Diagnostics in the Large Helical Device,” Plasma and Fusion Research, vol. 12 (2017) 1206013. DOI:10.1585/pfr.12.1206013.
    • Denisov G.G., Fokin A.P, Glyavin M.Yu., Golubiatnikov G.Yu., Lubyako L.V., Morozkin M.V., Movschevich B.Z., Tsvetkov A.I., “High precision frequency stabilization of a 100W/263 GHz continuous wave gyrotron,” IVEC Conference Paper (April, 2017).
    • Manuilov V.N., Sominskii G.G., Taradaev E.P, Glyavin M.Yu., “Non-adiabatic electron optical system with field emitter for a spectroscopic gyrotron,” IVEC Conference Paper (April, 2017).
    • Ohkubo K., Saito, T., Yamaguchi Y., Tatematsu Y., Kasa J., Kubo S., Shimozuma T., Tanaka K., Nishiura M., “Transmission Characteristics of Hybrid Modes in Corrugated Waveguides Above the Bragg Frequency,” Journal of Infrared, Millimeter, and Terahertz Waves, (2017). DOI: 10.1007/s10762-017-0385-y.
    • Saito T., Yamaguchi Y., Tatematsu Y., Fukunari M., Hirobe T., Tanaka S., Shinbayashi R., Shimozuma T., Kubo S., Tanaka K., Nishiura M., “Development of 300 GHz Band Gyrotron for Collective Thomson Scattering Diagnostics in the Large Helical Device,”  Plasma and Fusion Research, vol. 12 (2017) 1206013-1206013. DOI:10.1585/pfr.12.1206013.
    • Bratman V.L., Fedotov A.E., Kalynov Yu. K., Manuilov V.N., “ Electron-Optical System of the Gyrotron Designed for Operation in the DNP-NMR Spectrometer Cryomagnet (“Gyrotrino”),” Journal of Infrared, Millimeter, and Terahertz Waves, (2017) pp 1-9. DOI:10.1007/s10762-017-0399-5.
    • Rzesnicki T., Albajar F., AlbertiS., Avramidis K.A., et al, “Experimental verification of the European 1 MW, 170 GHz industrial CW prototype gyrotron for ITER,” Fusion Engineering and Design, Available online 20 February 2017, ISSN 0920-3796, DOI:10.1016/j.fusengdes.2017.02.021.
    • Bertinetti A., et al., “Multi-physics analysis of a 1 MW gyrotron cavity cooled by mini-channels,” Fusion Eng. Des. (2017). DOI:10.1016/j.fusengdes.2017.05.016.
    • Pagonakis I.Gr., Avramidis K.A., Gantenbein G., Rzesnicki T., Samartsev A., Jelonnek J. “Magnetic field profile analysis for gyrotron experimental investigation,” Physics of Plasmas, vol. 24, n. 3 (2017) 033102. DOI:10.1063/1.4977460.
    • Mesyats G.A., Ginzburg N.S., Golovanov A.A., Denisov G.G., Romanchenko I.V., Rostov V.V., Sharypov K.A., Shpak V.G., Shunailov S.A., Ulmaskulov M.R.,  Yalandin M.I., Zotova I.V., “Phase-Imposing Initiation of Cherenkov Superradiance Emission by an ltrashort-Seed Microwave Pulse,” Phys. Rev. Lett., vol. 118, n. 26 (2017) 264801. DOI:10.1103/PhysRevLett.118.264801.
    • Bykov Yu.V., Egorov S.V., Eremeev A.G., Plotnikov I.V., Rybakov K.I., Sorokin A.A., Kholoptsev V.V., “Effect of specific absorbed power on microwave sintering of 3YSZ ceramics,” IOP Conf. Series: Materials Science and Engineering 218 (2017) 012001 DOI:10.1088/1757-899X/218/1/012001.
    • Abramov I.S., Gospodchikov E.D., Shalashov A.G., “Prospects of extreme ultraviolet radiation sources based on microwave discharge for high-resolution lithography,” Physics of Plasmas, vol. 24, n. 7 (2017) 073511. DOI:10.1063/1.4993596.

    • Ruess S., Gantenbein G., Illy S., Kobarg T.,  Pagonakis I.G., Rzesnicki T., Thumm M., Weggen J., Jelonnek J., "Tolerance Studies on an Inverse Magnetron Injection Gunfor a 2-MW 170-GHz Coaxial-Cavity Gyrotron," IEEE Trans. on Electron Devices, (2017) pp. 7. DOI:10.1109/TED.2017.2723160.

    • Kato K., Qiu H., Khutoryan E.M., Tatematsu Y., Tani M., Idehara T., Yamaguchi Y., Fukunari M., Maeda Y., Takayama K., Minami Y., Empizo M.J.F.,Kurihara T., Yamanoi K., Shimizu T., Takano K., Sarukura N., Fukuda T., Yoshimura M., Nakajima M., “Strong yellow emission of high-conductivity bulk ZnO singlecrystals irradiated with high-power gyrotron beam,” Applied Physics Letters, vol. 111, n. 3 (2017) 031108. DOI:10.1063/1.4994316.

    • Jellonek J., Aiello G., Alberti S., Avramidis K., Braunmueller F., Bruschi A., Chelis J., Franck J., Franke T., Gantenbein G., Garavaglia S., GranucciG., Grossetti G., Illy S., Ioannidis Z.C., Jin, J., Kalaria P., Latsas G.P., Pagonakis I.Gr., Rzesnicki T., Ruess S., Scherer T., Schmid M., Strauss D., Wu C., Tigelis I., Thumm M., Tran M.Q., “Design Considerations for Future DEMO Gyrotrons: A Review on Related Gyrotron Activities within EUROfusion,” Preprint of Paper tobe submitted for publication in Proceedings of 29th Symposium on Fusion Technology (SOFT 2016) pp 7. DOI:10.1016/j.fusengdes.2017.01.047

    • Fukunari M., Komurasaki K., Nakamura Y., Oda Y., Sakamoto K., “Rocket Propulsion Powered Using a Gyrotron,” Journalof Energy and Power Engineering, vol. 11 (2017) 363-371. DOI:10.17265/1934-8975/2017.06.001.

    • Thumm M., “State-of-the-Art of High Power Gyro-Devices and Free Electron Masers Update2016,” KIT SCIENTIFIC REPORTS 7735 (2017) 196 pp. ISSN 1869-9669. DOI:10.5445/KSP/1000068193.

    • Gitlin M.S., Glyavin, M.Yu., Fedotov A.E., Tsvetkov A.I., “Imaging of spatial distributions of the millimeter waveintensity by using the Visible Continuum Radiation from a discharge in a Cs-Xe mixture. Part II: Demonstration of application capabilities of the technique," Plasma Physics Reports, vol. 43, n. 7 (2017) 778-791. DOI:10.1134/S1063780X17070066.

    • Burt G., ZhangL., Constable D.A., Yin H., Lingwood C.J., He W., Paoloni C., Cross A.W., "A Millimeter-WaveKlystron Upconverter With a Higher Order Mode Output Cavity," IEEE Trans. on Electron Devices, (2017) pp. 6. DOI:10.1109/TED.2017.2724581.

    • Denisov G., Kazansky I., Malygin V., Soluyanova E., Tai E., Chirkov A., “Series of powerful CW gyrotrons in the range 105 – 140 GHz,” EPJ Web of Conferences, vol.  147 (2017) 04003. DOI:10.1051/epjconf/201714704003.

    • Ell B., Pagonakis I.G., Gantenbein G., Illy S., Thumm M., Jelonnek J., "Study of the Influence of Stray MagneticFields on the Operation of the European Gyrotron for ITER," IEEE Trans. on Electron Devices, vol. 64, n. 8 (2017) 3421-3428. DOI:10.1109/TED.2017.2716385.

    • Petelin M. I., “The First Decade of the Gyrotronics,” Journal of Infrared, Millimeter, and Terahertz Waves, vol.38,n. 11 (2017) 1387–1396. DOI:1007/s10762-017-0423-9.

    • Ioannidis Z.C., Rzesnicki T., Albajar F., Alberti S., Avramidis K.A., Bin W.,  Bonicelli T., Bruschi A., Chelis I., Frigot P.E., Gantenbein G., HermannV., Hogge J.P., Illy S., Jin J., Jelonnek J., Kasparek W., Latsas G., Lechte C., Legrand F., Kobarg T.,  Pagonakis I.G., Rozier Y., Schlatter C., Schmid M., TigelisI.G., Thumm M., Tran M.Q.,Zein A., Zisis A., "CW Experiments With the EU 1-MW, 170-GHz Industrial Prototype Gyrotron for ITER at KIT," IEEE Trans. on Electron Devices, (2017) pp.1-8. DOI:10.1109/TED.2017.2730242.

    • Bandurkin I.V., Glyavin M.Y., Kuzikov S.V., Makhalov P.B., Osharin I.V., Savilov A.V., "Method of Providing theHigh Cyclotron Harmonic Operation Selectivity in a Gyrotron With a Spatially Developed Operating Mode," IEEE Trans. on Electron Devices, (2017) pp. 5. DOI:10.1109/TED.2017.2731982.

    • Tsvetkov A.I., Eremeev A.G., Kholoptsev V.V., Shmelev M.Yu., Plotnikov I.V., Bykov Yu.V., Kopelovich E.A.,Novikov A.Yu., Troitskiy M.M., Kuznetsov M.V., Zhurin K.A., Fokin A.P., Morozkin M.V., Glyavin M.Yu., Bakulin M.I., Denisov G.G., Soluyanova E.A., Tai E.M.,“45GHz/20kW gyrotron setup with automated output power control for ECR ion source,” EPJ Web Conf., vol. 149 (2017) 04032. DOI:10.1051/epjconf/201714904032.

    • Leontyev A.N., Abubakirov E.B.,. Chirkov A.V, Denisov G.G., Guznov Yu.M., Kornishin S.Yu., Plankin O.P.,Rozental R.M., Sedov A.S., Semenov E.S., Zavolsky N.A., Zapevalov S.A., Zapevalov V.E., “W-band 5 MW pulse relativistic gyrotron: development and experimentalimplementation,” EPJ Web Conf., vol. 149 (2017) 04026. DOI:10.1051/epjconf/201714904026.

    • Zotova I.V., Ginzburg N.S., Morozkin M.V., Rozental R.M., Sergeev A.S., Fedotov A.E., Tarakanov V.P., “Generation ofrogue waves in gyrotrons with high excess over the threshold,” EPJ Web Conf.,vol. 149 (2017) 04006. DOI:10.1051/epjconf/201714904006.

    • Denisov G.G., Fokin A.P., Glyavin M.Yu., Golubiatnikov G.Yu., Lubyako L.V., Morozkin M.V., Movschevich B.Z., TsvetkovA.I., “High precision frequency stabilization of a 263 GHz continuous wave gyrotron,” EPJ Web Conf., vol. 149 (2017) 04022.DOI:10.1051/epjconf/201714904022.

    • Bogdashov A.A., Denisov G.G., Fokin A.P., Glyavin M.Yu., Novozhilova Yu.V., Sedov A.S., Tsvetkov A.I., “Influence of weakreflection from a nonresonant load on the operation frequency of the 28 GHz technological gyrotron,” EPJ Web Conf., vol. 149 (2017) 04037.DOI:10.1051/epjconf/201714904037.

    • Denisov G.G., “New trends in gyrotron development,” EPJ Web Conf., vol. 149 (2017) 01001. DOI:10.1051/epjconf/201714901001.

    • Tarvainen O., Kalvas T., Koivisto H., Skalyga V., Izotov I., Mansfeld D., “Electron cyclotron resonance ion sources –physics, technology and future challenges.” EPJ Web Conf., vol. 149 (2017) 01003. DOI:10.1051/epjconf/201714901003.

    • Glyavin M.Yu., “Development and applications of THz gyrotrons,” EPJ Web Conf., vol. 149 (2017) 01008.DOI:10.1051/epjconf/201714901008.

    • Kasparek W., Erckmann V., Laqua H.P., Stange T., Weißgerber M., Lechte C., Plaum B., Moseev D., Leipold F.,Petelin M., Brunner K.J., Braune H., Marsen S., Schneider N., Wolf R.C., and W7-X team“Optics for electron cyclotron resonance heating and collectiveThomson scattering at the stellarator W7-X,”, EPJ Web Conf., vol. 149 (2017) 01013. DOI:10.1051/epjconf/201714901013.

    • Ginzburg N.S., Zotova I.V., “Generation of single and periodically repeated powerful ultrashort microwavepulses,” EPJ Web Conf., vol. 149 (2017) 01015. DOI: 10.1051/epjconf/201714901015.

    • Shaposhnikov R.A., Golubev S.V., Izotov I.V., Razin S.V., Skalyga V.A. “ECR discharge in a single solenoidfield,” EPJ Web Conf., vol. 149 (2017) 02006. DOI: 10.1051/epjconf/201714902006.

    • Mahmoud M., Link G., Jelonnek J., Thumm M., “Investigation on mm-wave sintering of metal powder compacts usingin-situ dilatometry and electrical resistivity measurements,” EPJ Web Conf., 149 (2017) 02007. DOI:10.1051/epjconf/201714902007.

    • Vodopyanov A.V., “Sources of ultraviolet light based on microwave discharges,” EPJ Web Conf., vol. 149(2017) 02009. DOI: 10.1051/epjconf/201714902009.

    • Oda Y., Imai T., Shimamura K., Fukunari M., Katsurayama H., Ohnishi N.,  Komurasaki K.,  “A study of RF power station for microwave rocket launch system,” EPJ Web Conf., vol. 149(2017) 02010. DOI: 10.1051/epjconf/201714902010.

    • Bubnov G.M., Lesnov I.V., Vdovin V.F., “Data rates of SubTHz wireless telecommunication channels,” EPJ Web Conf., vol.149 (2017) 02012. DOI: 10.1051/epjconf/201714902012.

    • Vodopyanov A.V., Samokhin A.V., Alexeev N.V., Sinayskiy M.A., Tsvetkov A.I., Mansfeld D.A., Glyavin M.Yu.,Fokin A.P., Malygin V.I., “High rate production of nanopowders by the evaporation – condensation method using gyrotron radiation,” EPJ Web Conf.,vol. 149 (2017) 02022. DOI:10.1051/epjconf/201714902022.

    • Zapevalov V.E., “High-power microwaves against locusts and other harmful animals,” EPJ Web Conf., vol. 149(2017) 02030. DOI: 10.1051/epjconf/201714902030.

    • Sidorov A.V.,  Razin S.V., Luchinin A.G., Tsvetkov A.I.,. Fokin A.P,. Sidorov D.S, Veselov A.P., Vodopyanov A.V., Glyavin M.Yu., “Gasbreakdown by a focused beam of THz waves,” EPJ Web Conf., vol. 149 (2017) 02031. DOI: 10.1051/epjconf/201714902031.

    • Razin S.V., Sidorov A.V., Luchinin A.G., Sidorov D.S., Golubev S.V., Glyavin M.Yu.,   Vodopyanov A.V., “Light emission properties of a discharge induced in agas flow by terahertz waves in the vacuum and extreme ultraviolet range,” EPJ Web Conf., vol. 149 (2017) 02032. DOI:10.1051/epjconf/201714902032.

    • Semenov V.E., Rakova E.I., Glyavin M.Yu., Nusinovich G.S., “A possibility of remote detection of air breakdown in a focalspot of microwave beam using reflected signal,” EPJ Web Conf., vol. 149 (2017) 02033. DOI:10.1051/epjconf/201714902033.

    • Semenov V.E., Rakova E.I., Glyavin M.Yu. Nusinovich, G.S., “Theory of initial stage of the breakdown in non-uniform gasflow,” EPJ Web Conf., vol. 149 (2017) 02034. DOI:10.1051/epjconf/201714902034.

    • S.V. Samsonov, G.G. Denisov, I.G. Gachev, A.A. Bogdashov, S.V. Mishakin, V.N.Manuilov, V.I. Belousov, D.I. Sobolev, E.V. Sokolov, E.A. Soluyanova, E.M. Tai, “Development of gyrotron traveling-wave tubes at IAP and GYCOM,” EPJ Web Conf., vol. 149 (2017)  04002. DOI:10.1051/epjconf/201714904002.

    • V.E. Zapevalov, “Non-canonical gyrotrons,” EPJ Web Conf., vol. 149 (2017)  04003. DOI:10.1051/epjconf/201714904003.

    • V.N. Manuilov, G.G. Sominskii, M.Yu. Glyavin, “Development of advanced electronoptical systems for novel gyrotrons,” EPJ Web Conf., vol. 149 (2017) 04004. DOI:10.1051/epjconf/201714904004.

    • C.Wu., I.Gr. Pagonakis, S. Illy, G. Gantenbein, M. Thumm, J. Jelonnek, “Comparisonbetween controlled non-adiabatic and E×B concepts for gyrotron multistage depressed collectors,” EPJ Web Conf., vol. 149 (2017) 04005. DOI:10.1051/epjconf/201714904005.

    • I.V. Zotova, N.S. Ginzburg, M.V. Morozkin, R.M. Rozental, A.S. Sergeev, A.E.Fedotov,  V.P. Tarakanov, “Generation of rogue waves in gyrotrons with high excess over the threshold,” EPJ Web Conf., vol. 149 (2017) 04006. DOI:10.1051/epjconf/201714904006.

    • J. Jelonnek, G. Aiello, S. Alberti, K. Avramidis, A. Bertinetti, A. Bruschi, J.Chelis, T. Franke, G. Gantenbein, S. Garavaglia, et al., “European research activities towards a future DEMO gyrotron,” EPJ Web Conf., vol. 149 (2017) 04007. DOI:10.1051/epjconf/201714904007.

    • A.K. Kaminsky, I.V. Bandurkin, D.E. Donets, S.V. Kuzikov, N.Yu. Peskov, A.V.Savilov, S.N. Sedykh and A.A. Vikharev, “Development of powerful Ka-band FEM-amplifiers with broad frequency tuning,” EPJ Web Conf., vol. 149 (2017) 04011. DOI:10.1051/epjconf/201714904011.

    • N.Yu. Peskov, N.S. Ginzburg, A.K. Kaminsky, S.N. Sedykh, V.Yu. Zaslavsky, “Powerfulnarrow-band relativistic masers with Bragg resonators operating from mm to sub-mm wavelength band: resent results and prospects,” EPJ Web Conf., vol. 149 (2017) 04012. DOI:10.1051/epjconf/201714904012.

    • A.M. Malkin, N.S. Ginzburg, S.E. Fil’chenkov, A.S. Sergeev, V.Yu. Zaslavsky,“Surface-wave Bragg resonators for terahertz frequency range,” EPJ Web Conf., vol. 149 (2017) 04013. DOI:10.1051/epjconf/201714904013.

    • M. Thumm, A. Sawant, M.S. Choe, E.M. Choi, “The gyrotron – a natural source of high-powerorbital angular momentum millimeter-wave beams,” EPJ Web Conf., vol. 149 (2017) 04014. DOI:10.1051/epjconf/201714904014.

    • S. Ruess, G. Gantenbein, A. Heinzel, S. Illy, I. Gr. Pagonakis, T. Rzesnicki, M. Thumm,J. Weggen, A. Weisenburger, J. Jelonnek, “Design and manufacturing process for the KIT 2-MW 170-GHz coaxial-cavity longer-pulse gyrotron,” EPJ Web Conf., vol. 149 (2017)  04015. DOI:10.1051/epjconf/201714904015.

    • A. Marek, K.A. Avramidis, S.M. Copplestone, N.S. Ginzburg, S. Illy, J. Jelonnek, J. Jin,S.V. Mishakin, A.-S. Müller, P. Ortwein, M. Thumm, “Simulation of electromagnetic fields scattered from arbitrary shaped electric conductors,” EPJ Web Conf., vol. 149 (2017) 04016. DOI:10.1051/epjconf/201714904016.

    • D.I. Sobolev, G.G. Denisov, A.G. Eremeev, V.V. Holoptsev, I. Tsvetkov,“Polarization-dependent TE11-to-TE11/TE01 waveguide mode converter for transmission line mode switching,” EPJ Web Conf., vol. 149 (2017) 04017. DOI:10.1051/epjconf/201714904017.

    • S.M. Copplestone, P. Ortwein, C.-D. Munz, K.A. Avramidis, J. Jelonnek, “Simulationof gyrotrons using the high-order particle-in-cell code PICLas,” EPJ Web Conf., vol. 149 (2017) 04019. DOI:10.1051/epjconf/201714904019.

    • P. Ortwein, S.M. Copplestone, C.-D. Munz, A. Marek, J. Jelonnek, “Benchmarking ahigh-order particle-in-cell code for the simulation of a gyrotron traveling-wave tube,” EPJ Web Conf., vol. 149 (2017) 04020. DOI:10.1051/epjconf/201714904020.

    • P. Ortwein, S.M. Copplestone, C.-D. Munz, A. Marek, J. Jelonnek, “Benchmarking ahigh-order particle-in-cell code for the simulation of a gyrotron traveling-wave tube,” EPJ Web Conf., vol. 149 (2017) 04020. DOI: 10.1051/epjconf/201714904020.

    • Yu.V. Novozhilova, V.L. Bakunin, A.V. Chirkov, Yu.M. Guznov, G.G. Denisov, A.P.Fokin, A.S. Shevchenko, N.I. Zaitsev, S.A. Zapevalov,“Influence of mode competition and external wave frequency modulation on gyrotron frequencylocking,” EPJ Web Conf., vol. 149 (2017)  04021. DOI:10.1051/epjconf/201714904021.

    • G.G. Denisov, A.P. Fokin, M.Yu. Glyavin, G.Yu. Golubiatnikov, L.V. Lubyako, M.V.Morozkin, B.Z. Movschevich, A.I. Tsvetkov “High precision frequency stabilization of a 263 GHz continuous wave gyrotron,” 04022.DOI:10.1051/epjconf/201714904022.

    • V.Yu. Zaslavsky, N.S. Ginzburg, “Simulations of powerful microwave oscillators withoversized electrodynamics systems,” EPJ Web Conf., vol. 149 (2017) 04025. DOI:10.1051/epjconf/201714904025.

    • Alexander N. Leontyev, E.B. Abubakirov, A.V. Chirkov, G.G. Denisov, Yu.M. Guznov, S.Yu.Kornishin, O.P. Plankin, R.M. Rozental, A.S. Sedov, E.S. Semenov,  N.A. Zavolsky, S.A. Zapevalov and V.E. Zapevalov, “W-band 5 MW pulse relativistic gyrotron: development andexperimental implementation,” EPJ Web Conf., vol. 149 (2017) 04026. DOI:10.1051/epjconf/201714904026.

    • M.L. Kulygin, G.G. Denisov, S.H. Salahetdinov, S.V. Shubin, E.A. Novikov, I.A.Litovsky, “260 GHz CW gyrotron heating substitution with second-long laser pulses in waveguide semiconductor switches,” EPJ Web Conf., vol. 149 (2017) 04030. DOI:10.1051/epjconf/201714904030.

    • N.S. Ginzburg, E.V. Ilyakov, I.S. Kulagin, N.Yu. Peskov, A.S. Sergeev, V.Yu.Zaslavsky “Theoretical and experimental investigations of oversized Ka-band surface-wave oscillator based on 2D periodical corrugated structure,” EPJ Web Conf., vol. 149 (2017) 04031. DOI:10.1051/epjconf/201714904031.

    • A.I. Tsvetkov, A.G. Eremeev, V.V. Kholoptsev, M.Yu. Shmelev, I.V. Plotnikov, Yu.V.Bykov, E.A. Kopelovich, A.Yu. Novikov, M.M. Troitskiy, M.V. Kuznetsov, et al., “45GHz/20kW gyrotron setup with automated output power control for ECR ionsource,” EPJ Web Conf., vol. 149 (2017) 04032. DOI:10.1051/epjconf/201714904032.

    • S. Filchenkov, I. Gachev, M. Goikhman, Yu. Guznov, D. Lukovnikov, A. Tsvetkov, “Aquasi-optical input for a whispering-gallery-mode gyro-twystron,” EPJ Web Conf., vol. 149 (2017)  04033. DOI:10.1051/epjconf/201714904033.

    • M.D. Proyavin, M.Yu. Glyavin, V.N. Manuilov, “Development of high-efficient gyrotronbased complex for industrial applications,” EPJ Web Conf., vol. 149 (2017) 04034. DOI:10.1051/epjconf/201714904034.

    • K.A. Leshcheva, A.L. Goldenberg, M.Y. Glyavin, V.N. Manuilov, “Non-adiabaticelectron-optical system for 170GHz/1MW/CW gyrotron,” 04035. DOI:10.1051/epjconf/201714904035.

    • V.N. Manuilov, G.G. Sominskii, E.P. Taradaev, T.A. Tumareva, M.Yu. Glyavin, “Development offield emitter non-adiabatic electron optic system for the spectroscopic 263 GHz/CW gyrotron,” EPJ Web Conf., vol. 149 (2017) 04036. DOI:10.1051/epjconf/201714904036.

    • A.A. Bogdashov, G.G. Denisov, A.P. Fokin, M.Yu. Glyavin, Yu.V. Novozhilova, A.S.Sedov, A.I. Tsvetkov, “Influence of weak reflection from a nonresonant load on the operation frequency of the 28 GHz technological gyrotron,” EPJ Web Conf., vol. 149 (2017)  04037. DOI:10.1051/epjconf/201714904037.

    • V.L. Bratman, A.E. Fedotov, P.B. Makhalov, V.N. Manuilov, “Non-relativistic hollowelectron beam formation for mm-wave BWO,” EPJ Web Conf., vol. 149 (2017) 04038. DOI:10.1051/epjconf/201714904038.

    • V.L. Bratman, A.E. Fedotov, Yu. K. Kalynov, V.N. Manuilov, I.V. Osharin, “Progressin the development of low-voltage gyrotron for integration with NMR spectrometer,” EPJ Web Conf., vol. 149 (2017) 04039. DOI:10.1051/epjconf/201714904039.

    • Sergey V. Mishakin, Sergey V. Samsonov, “Thermal analysis of gyro-amplifiers withhelically corrugated waveguides,” 04040. DOI:10.1051/epjconf/201714904040.

    • M.N. Vilkov, N.S. Ginzburg, G.G. Denisov, I.V. Zotova, A.S. Sergeev, A.M. Malkin,S.V. Samsonov, S.V. Mishakin, “Ultrashort pulse generation based on two coupled helical gyro-TWTs,” EPJ Web Conf., vol. 149 (2017) 04041. DOI:10.1051/epjconf/201714904041.

    • A.M. Malkin, N.S. Ginzburg, I.V. Zheleznov, A.S. Sergeev, “Amplification ofshort-wavelength radiation by relativistic electron beams moving near the impedance surfaces,” EPJ Web Conf., vol. 149 (2017) 04042. DOI:10.1051/epjconf/201714904042.

    • M.V. Morozkin, M.Yu. Glyavin, V.N. Manuilov, I.V. Zotova, M.D. Proyavin, “Collectorsystem of a gyrotron with magnetically shielded solenoid,” EPJ Web Conf., vol. 149 (2017)  04043. DOI:10.1051/epjconf/201714904043.

    • I.V. Zotova, N.S. Ginzburg, A.S. Sergeev, A.E. Fedotov, V.Yu. Zaslavsky, “Modulationof microwave radiation in the process of resonant interaction with a counter-propagating rectilinear electron beam,” EPJ Web Conf., vol. 149 (2017) 04044. DOI: 10.1051/epjconf/201714904044.

    • V.L. Bratman, N. Balal, I.V. Bandurkin, A. Friedman, Yu. Lurie, A.V. Savilov,“Coherent spontaneous THz undulator radiation from dense electron bunches formed in laser-driven photo-injectors,” EPJ Web Conf., vol. 149 (2017) 05002. DOI:10.1051/epjconf/201714905002.

    • Andrei Savilov, I.V. Bandurkin, Yu.S. Oparina, “Super-radiative self-compression ofphoto-injector electron bunches and the use of this effect for realization of a THz source based on spontaneous coherent emission from a short dense electronbunch,” EPJ Web Conf., vol. 149 (2017) 05008. DOI:10.1051/epjconf/201714905008.

    • Yu.A. Sergeev, I.V. Oladyshkin, S.B. Bodrov, A.I. Korytin, M.D. Tokman, S.V. Kuzikov,A.A. Vikharev, A.N. Stepanov, “Strong terahertz fields: interaction with condensed matter and electron acceleration,” EPJ Web Conf., vol. 149 (2017) 05009. DOI:10.1051/epjconf/201714905009.

    • I.V. Osharin, I.V. Bandurkin, Yu.K. Kalynov, S.V. Kuzikov, A.V. Savilov, “Terahertzgyrotrons with quasi-regular cavities,” EPJ Web Conf., vol. 149 (2017) 05018. DOI:10.1051/epjconf/201714905018.

    • Yu.S. Oparina, A.V., Savilov “Spontaneous coherent cyclotron THz super-radiation froma short dense photo-injector electron bunch,” EPJ Web Conf., vol. 149 (2017) 05019. DOI:10.1051/epjconf/201714905019.

    • Glyavin M.Yu., Osharin I.V., Savilov A.V., "On the feasibility of a pulsed gyrotronwith a peak rf power exceeding the power of the operating electron beam," Appl. Phys. Lett., vol. 111, no. 7 (2017) 073504. DOI:10.1063/1.4989776.

    • Girka I.O., Thumm M., "Transition Between Beam-Plasma and Beam-Dissipative Instability Regimesin the Interaction of Relativistic Large Larmor Orbit Electron Beams and Azimuthal Surface Waves Above the Upper-Hybrid Frequency in Coaxial Plasma Waveguides,"IEEE Trans. on Plasma Science, vol. 45, no. 8 (2017) 2208-2214.

    • Di Palma E., Dattoli G., Sabia E., Sabchevski S., Spassovsky I., "Beam-Wave Interaction From FEL to CARM andAssociated Scaling Laws," IEEE Trans. on Electron Devices , (2017) pp. 1-8. DOI:10.1109/TED.2017.2738673.

    • Dumbrajs O., Kalis H., "Multimode time-dependent gyrotron equations for different time scales," Physics of Plasmas, vol. 24, n. 9 (2017)093111. DOI:10.1063/1.5000388.

    • Vodopyanov A.V., Glyavin M.Yu., Luchinin A.G., Razin S.V., Sidorov A.V., Fokin A.P., "Glow of the Plasmaof a Pulse Discharge Produced in Nitrogen by High-Power Terahertz-Wave Radiation," Radiophysics and Quantum Electronics, vol. 60, n. 2 (2017)136.DOI:10.1007/s11141-017-9784-0.

    • Soane A.V., Shapiro M.A., Stephens J.C., Temkin R.J., "Theory of Linear and Nonlinear Gain in a Gyroamplifier Usinga Confocal Waveguide," IEEE Trans. on Plasma Science, (2017) pp. 1-12. DOI:10.1109/TPS.2017.2726683.

    • Yuvaraj S., Kartikeyan M.V., Thumm M.K., "RF Behavior of a 220/251.5-GHz, 2-MW, Triangular Corrugated CoaxialCavity Gyrotron," IEEE Trans. on Electron Devices, (2017) pp. 1-8. DOI:10.1109/TED.2017.2743342.

    • Granucci G., Aiello G., Alberti S., Avramidis K.A., Braunmüller F., Bruschi A., Chelis J., Franck J., Figini L.,Gantenbein G., “Conceptual design of the EU DEMO EC-system: main developments and R&D achievements,” Nucl. Fusion, vol. 57 (2017) 116009. DOI:10.1088/1741-4326/aa7b15.

    • Vodopyanov A.V., Samokhin A.V., Alexeev N.V., Sinayskiy M.A., Tsvetkov A.I., Glyavin M.Yu., Fokin A.P., MalyginV.I., “Application of the 263GHz/1 kW gyrotron setup to produce a metal oxide nanopowder by the evaporation-condensation technique,” Vacuum, Available online12 September 2017. DOI:10.1016/j.vacuum.2017.09.018.

    • Kalynov Y.K., Osharin I.V., Savilov A.V., "Stability of Excitation of Traveling Waves in Gyrotrons WithLow-Relativistic Electron Beams," IEEE Trans. on Electron Devices, (2017) pp. 7. DOI: 10.1109/TED.2017.2751098.

    • Idehara T., Glyavin M., Kuleshov A., Sabchevski S.,Manuilov V., Zaslavsky V., ZotovaI., Sedov A.,"A novel THz-band double-beam gyrotron for high-field DNP-NMR spectroscopy," Review of Scientific Instruments, vol. 88, n. 9 (2017) 094708. DOI:10.1063/1.4997994.

       


    2016

    • Glyavin M.Yu., Goykhman M.B., Gromov A.V., Palitsin A.V., Panin A.N., Rodin Yu.V., Fil’chenkov S.E., "A waveguide high-pass filter system for measuring the spectrum of pulsed terahertz sources," Infrared Physics & Technology (2016). DOI: 10.1016/j.infrared.2015.12.031.
    • Kalynov Yu.K., Manuilov V.N., "A Wideband Electron-Optical System of a Subterahertz Large-Orbit Gyrotron," IEEE Trans. on Electron Devices, vol. 63 (2016) 491-496. DOI: 10.1109/TED.2015.2501023.
    • Nusinovich G.S., Dumbrajs O., "Field Formation in the Interaction Space of Gyrotrons," Journal of Infrared, Millimeter and Terahertz Waves, vol. 37 (2016) 111–122. DOI: 10.1007/s10762-015-0192-2.
    • Dumbrajs O., Khutoryan E.M., Idehara T., "Hysteresis and Frequency Tunability of Gyrotrons," Journal of Infrared, Millimeter and Terahertz Waves, vol. 37 (2016). DOI: 10.1007/s10762-015-0240-y.
    • Zhang J., Illy S., Pagonakis I.Gr., Avramidis K.A., Thumm M., Jelonnek J., "Influence of emitter surface roughness on high power fusion gyrotron operation," Nucl. Fusion, vol. 56 (2016) 026002 (7pp). DOI: 10.1088/0029-5515/56/2/026002.
    • Ioannidis Z.C., Avramidis K.A., Tigelis I.G., "Selectivity Properties of Coaxial Gyrotron Cavities With Mode Converting Corrugations," IEEE Trans. on Electron Devices (2016) 8 pp. DOI: 10.1109/TED.2016.2518217.
    • Melnikova M.M., Rozhnev A.G., Ryskin N.M., Tyshkun A.V., Glyavin M.Y., Novozhilova, Y.V., "Frequency Stabilization of a 0.67-THz Gyrotron by Self-Injection Locking," IEEE Trans. on Electron Devices (2016).  DOI: 10.1109/TED.2015.2512868.

    • Schaub S.C., Shapiro M.A., Temkin R.J., "Simple Expressions for the Design of Linear Tapers in Overmoded Corrugated Waveguides," Journal of Infrared, Millimeter, and Terahertz Waves, vol. 37 (2016) 100-110. DOI: 10.1007/s10762-015-0191-3.

    • Dumbrajs O., Saito T., Tatematsu Y., “Start-up scenario of a high-power pulsed gyrotron for 300 GHz band collective Thomson scattering diagnostics in the large helical device,” Physics of Plasmas, vol. 23 (2016)  023106. DOI: 10.1063/1.4941703.

    • Ishida A., Namba T., Asai S., “Measurement of positronium thermalization in isobutane gas for precision measurement of ground-state hyperfine splitting,” Journal of Physics B: Atomic, Molecular and Optical Physics, vol. 49, n. 6 (2016) 064008. DOI: 10.1088/0953-4075/49/6/064008.
    • Ishiyama S., Masamune K., Idehara T., “THz beam transmission experiment using metallic cladding polymer fibers,” Transactions of the JSME, vol. 82, n. 833 (2016) 15-00449 (In Japanese). DOI:10.1299/transjsme.15-00449.
    • Miyoshi N., Idehara T., Khutoryan E., Fukunaga Y., Bibin A.B., Ito S., Sabchevski S.P., "Combined Hyperthermia and Photodynamic Therapy Using a Sub-THz Gyrotron as a Radiation Source", Journal of Infrared, Millimeter, and Terahertz Waves, (2016) 10 pp. DOI: 10.1007/s10762-016-0271-z. (First online: 04 April 2016).
    • Ueda K., Matsuki Y., Fujiwara T., Tatematsu Y., Ogawa I., Idehara T., "Further Characterization of 394-GHz Gyrotron FU CW GII with Additional PID Control System for 600-MHz DNP-SSNMR Spectroscopy", Journal of Infrared, Millimeter, and Terahertz Waves (2016) 12pp. DOI: 10.1007/s10762-016-0276-7. 
    • Matsuki Y., Idehara T., Fukuzawa J., Fujiwara T., “Advanced instrumentation for DNP-enhanced MAS NMR for higher magnetic field and lower temperature,” Journal of Magnetic Resonance, vol. 284 (2016) 107-115. DOI: 10.1016/j.jmr.2016.01.022.
    • Sudiana, I. Nyoman, Mitsudo S., Sako K., Inagaki S., Ngkoimani L.O., Usman I., Aripin H., “The microwave effects on the properties of alumina at high frequencies of microwave sintering,” AIP Conference Proceedings, vol. 1719 (2016) 03001. DOI: 10.1063/1.4943709.
    • Munroe B.J., Zhang, J.X., Xu H., Shapiro M.A., Temkin R. J., “Experimental high gradient testing of a 17.1 GHz photonic band-gap accelerator structure,” Phys. Rev. Accel. Beams, vol. 19, n. 3 (2016) 031301. DOI: 10.1103/PhysRevAccelBeams.19.031301.
    • Skalyga V., Izotov I., Golubev S., Vodopyanov A., Tarvainen O., “First experiments with gasdynamic ion source in CW mode,” Review of Scientific Instruments, vol. 87 (2016) 02A715. DOI: 10.1063/1.4934208.
    • Kulygin M., Denisov G., Vlasova K., Andreev N., Shubin S., Salahetdinov S., “Sub-terahertz microsecond optically controlled switch with GaAs active element beyond the photoelectric threshold,” Review of Scientific Instruments, vol. 87 (2016) 014704. DOI: 10.1063/1.4939673.
    • Ginzburg N.S., Cross A.W., Golovanov A.A., Phelps A.D.R., Romanchenko I.V., Rostov V.V., Sharypov K.A., Shpak V.G., Shunailov S.A, Ul'masculov M.R., Yalandin M.I., Zotova I.V., "Coherent Summation of Emission From Relativistic Cherenkov Sources as a Way of Production of Extremely High-Intensity Microwave Pulses," IEEE Trans. on Plasma Science (2016) 9 pp. DOI: 10.1109/TPS.2016.2517670.
    • Ginzburg N.S., Rozental R.M., Sergeev A.S., Zotova, I.V., “Time-domain model of gyroklystrons with diffraction power input and output,” Physics of Plasmas, vol. 23 (2016) 033108. DOI: 10.1063/1.4943277.
    • Bratman V.L., A.V. Savilov, Chang T.H., “Possibilities for Continuous Frequency Tuning in Terahertz Gyrotrons with Nontunable Electrodynamic Systems,” Radiophysics and Quantum Electronics, vol. 58 (9) (2016) 660-672. DOI: 10.1007/s11141-016-9638-1.
    • Glyavin M.Yu., Morozkin M.V., Tsvetkov A.I., Lubyako L.V., Golubiatnikov G.Yu, Kuftin A.N., Zapevalov V.E., Kholoptsev V.V., Eremeev A.G., Sedov A.S., Malygin V.I., Chirkov A.V., Fokin A.P., Sokolov E.V., Denisov G.G.,"Automated Microwave Complex on the Basis of a Continuous-Wave Gyrotron with an Operating Frequency of 263 GHz and an Output Power of 1 kW", Radiophysics and Quantum Electronics (2016) 10 pp. DOI: 10.1007/s11141-016-9636-3.
    • Bandurkin I.V., Kalynov Yu.K., Savilov A.V., "Experimental Study of a Gyrotron with a Sectioned Klystron-Type Cavity Operated at Higher Cyclotron Harmonics", Radiophysics and Quantum Electronics (2016) 7 pp. DOI: 10.1007/s11141-016-9641-6.
    • Vilkov M.N.,Ginzburg N.S., Denisov G.G., Zotova I.V., Sergeev A.S., "Generation of a Periodic Series of High-Power Ultra-Short Pulses in a Gyro-TWT with a Bleachable Cyclotron Absorber in the Feedback Circuit", Radiophysics and Quantum Electronics, 58 (8) (2016) 598—606. DOI: 10.1007/s11141-016-9631-8.
    • Zotova I.V., Ginzburg N.S., Denisov G.G., A Rozental’ R.M., Sergeev A.S., “Frequency Locking and Stabilization Regimes in High-Power Gyrotrons with Low-Q Resonators,” Radiophysics and Quantum Electronics, (2016) 1573-9120. DOI: 10.1007/s11141-016-9640-7.
    • Skvortsova N.N., Stepakhin V.D., Malakhov D.V., Sorokin A.A., Batanov G.M., Borzosekov V.D., Glyavin M.Yu., Kolik L.V., Konchekov E., Letunov A.A., Petrov A.E., Ryabikina I.G.,Sarksyan K.A., Sokolov A.S., Smirnov V.A., Kharchev N.K., "Relief Creation on Molybdenum Plates in Discharges Initiated by Gyrotron Radiation in Metal-Dielectric Powder Mixtures", Radiophysics and Quantum Electronics (2016) 9 pp. DOI: 10.1007/s11141-016-9642-5.
    • Glyavin M.Yu., Denisov G.G., Zapevalov V.E., Kuftin A.N., Manuilov V.N., Soluyanova E.A., Sedov A.S., Kholoptsev V.V., Chirkov A.V., “Peculiarities of optimizing the subsystems of a continuous-wave gyrotron with a generation frequency of 0.26 THz at the fundamental cyclotron resonance,” Radiophysics and Quantum Electronics, vol. 58 (2016) 11pp. DOI: 10.1007/s11141-016-9637-2.
    • Glyavin M.Yu., Denisov G.G., Kulygin M.L., Mel'nikova M.M.,  Novozhilova Yu.V., Ryskin N.M., "Gyrotron Frequency Stabilization by a Weak Reflected Wave", Radiophysics and Quantum Electronics, vol. 58, n. 9 (2016) 673-683. DOI: 1007/s11141-016-9639-0.
    • Ruess S., Pagonakis I.G., Gantenbein G., Illy S., Kobarg T., Rzesnicki T., Thumm M., Weggen J., Jelonnek J., "An Inverse Magnetron Injection Gun for the KIT 2-MW Coaxial-Cavity Gyrotron," IEEE Trans. on Electron Devices, (2016) 6 pp. DOI: 10.1109/TED.2016.2540298.
    • Pagonakis I.G., Piosczyk B., Zhang J., Illy S., Rzesnicki T., Hogge, J.-Ph., Avramidis K., Gantenbein G., Thumm M., Jelonnek J., “Electron trapping mechanisms in magnetron injection guns,” Physics of Plasmas, vol. 23 (2016) 023105. DOI: 10.1063/1.4941705.
    • Melnikova M.M., Rozhnev A.G., Ryskin N.M., Tyshkun A.V., Glyavin M.Y., Novozhilova Y.V., "Frequency Stabilization of a 0.67-THz Gyrotron by Self-Injection Locking," IEEE Trans. on Electron Devices, vol. 63, n. 3 (2016) 1288-1293. DOI: 10.1109/TED.2015.2512868.
    • Bogdashov A.A., Denisov G.G., Samsonov S.V., Gachev I.G., Dominyuk Ya.V., Murzin V.N., Levitan B.A., "High-Power Ka-Band Transmission Line with a Frequency Bandwidth of 1 GHZ", Radiophysics and Quantum Electronics (2016) 12 pp. DOI: 10.1007/s11141-016-9650-5.
    • Bogdashov A.A., Denisov G.G., Samsonov S.V., Gachev I.G., Dominyuk Ya.V., Murzin V.N., Levitan B.A., "High-Power Ka-Band Transmission Line with a Frequency Bandwidth of 1 GHZ," Radiophysics and Quantum Electronics (2016) 12 pp. DOI: 10.1007/s11141-016-9650-5.
    • Denisov G.G., Bogdashov A.A., Gachev I.G., Mishakin S.V., Samsonov S.V., "New Radiation Input/Output Systems for Millimeter-Wave Gyrotron Traveling-Wave Tubes," Radiophysics and Quantum Electronics, (2016) 8 pp. DOI: 10.1007/s11141-016-9649-y.
    • Denisov G.G., Shmelyov M.Yu., "Using the Talbot Effect for Summation of Microwave Signals in the Millimeter-Wavelength Band", Radiophysics and Quantum Electronics, vol. 58, n. 10 (2016) 789-792. DOI: 10.1007/s11141-016-9651-4.
    • Abubakirov E.B., Bandurkin I.V., Vikharev A.A., Kuzikov S.V., Rozental R.M., Savilov A.V., Fedotov A.E., "Microwave Undulators and Electron Generators for New-Generation Free-Electron Lasers", Radiophysics and Quantum Electronics, vol. 58, n. 10 (2016) 755-768. DOI: 10.1007/s11141-016-9648-z.
    • Denisov G.G., Bogdashov A.A., Gachev, I.G., Mishakin S.V., Samsonov S.V., "New Radiation Input/Output Systems for Millimeter-Wave Gyrotron Traveling-Wave Tubes," Radiophysics and Quantum Electronics, vol. 58, n.10 (2016) 769-776. DOI: 10.1007/s11141-016-9649-y.
    • Sidorov A.V., Razin S.V., Golubev S.V., Safronova M.I., Fokin A.P., Luchinin A.G., Vodopyanov A.V., Glyavin M.Yu. “Measurement of plasma density in the discharge maintained in a nonuniform gas flow by a high-power terahertz-wave gyrotron,” Physics of Plasmas, vol. 23 (2016) 043511. DOI: 10.1063/1.4947219.
    • Pagonakis I.Gr., Wu C., Illy S., Jelonnek J., “Multistage depressed collector conceptual design for thin magnetically confined electron beams,” Physics of Plasmas, vol. 23 (2016) 043114. DOI: 10.1063/1.4947565.
    • Hassan M.N., Mahmoud M.M., Link G., El-Fattah A.A., Kandil S., “Sintering of naturally derived Hydroxyapatite using high frequency microwave processing,” Journal of Alloys and Compounds, Available online 29 April 2016. DOI: 10.1016/j.jallcom.2016.04.266.
    • Wu C., Pagonakis I., Illy S., Thumm M., Gantenbein G., Jelonnek J., "Preliminary studies on Multistage Depressed Collectors for fusion gyrotrons," 2016 German Microwave Conference (GeMiC), Bochum, Germany (2016) 365-368. DOI: 10.1109/GEMIC.2016.7461632.
    • Ruess S., Rzesnicki T., Pagonakis I.Gr., Kobarg T., "Experimental results and outlook of the 2 MW 170 GHz coaxial-cavity gyrotron towards long pulse operation," 2016 German Microwave Conference (GeMiC), Bochum, Germany (2016) 369-372. DOI: 10.1109/GEMIC.2016.7461633.
    • Damyanova M., Sabchevski S., Zhelyazkov I.,  Vasileva E., Balabanova E., Dankov P.,  Malinov P., “Problem-Oriented Simulation Packages and Computational Infrastructure for Numerical Studies of Powerful Gyrotrons,” Journal of Physics: Conference Series, vol. 715, n. 1 (2016) 012001. DOI: 10.1088/1742-6596/715/1/012001.
    • Damyanova M., Sabchevski S., Zhelyazkov I.,  Vasileva E., Balabanova E., Dankov P.,  Malinov P.,  “Development of problem-oriented software packages for numerical studies and computer-aided design (CAD) of gyrotrons,” Journal of Physics: Conference Series, vol. 700, n. 1 (2016) 012010. DOI: 10.1088/1742-6596/700/1/012010.
    • Bulgarevich D.S., Shiwa M., Furuya T., Tani M., "Gigahertz time-domain spectroscopy and imaging for non-destructive materials research and evaluation," Scientific Report, vol. 6 (2016) Article number 27980.  DOI: 10.1038/srep27980.
    • Bakunov M.I., Gorelov S.D., Tani M., "Nonellipsometric Noncollinear Electrooptic Sampling of Terahertz Waves: A Comprehensive Theory," IEEE Trans. on Terahertz Science and Technology, vol. 6, n. 3 (2016) 473-479. DOI: 10.1109/TTHZ.2016.2543601.
    • Morikawa O., Yamamoto K., Kurihara K., Tani M., Kuwashima F., Hangyo M., "Aperture transmission measurements for characterization of focusing of sub-THz radiation," Journal of the Optical Society of America B, vol. 33, n. 7 (2016) 1456-1461. DOI: 10.1364/JOSAB.33.001456.
    • Glyavin M.Yu., Denisov G.G., Zapevalov V.E., Koshelev M.A., Tretyakov M.Yu., Tsvetkov A.I. “High power terahertz sources for spectroscopy and material diagnostics,” Physics Uspekhi,  vol. 59, n. 6 (2016). DOI: 10.3367/UFNe.2016.02.037801.
    • Gitlin M.S., Glyavin M.Yu., Fedotov A.E., Tsvetkov A.I., “Imaging the millimeter wave intensity profiles using a visible continuum radiation from a Cs–Xe DC discharge (a review): Part II. Demonstration of application capabilities of the technique,” Uspekhi prikladnoi fiziki (Advances in Applied Physics) 4 (2) (2016) 111-125 (in Russian). 
    • Glyavin M.Yu., Goykhman M.B., Gromov A.V., Palitsin A.V., Panin A.N., Rodin Yu.V., Fil’chenkov S.E., “A waveguide high-pass filter system for measuring the spectrum of pulsed terahertz sources,” Infrared Physics & Technology, vol. 76 (2016) 11-20. DOI: 10.1016/j.infrared.2015.12.031.
    •  Kalynov Yu.K., Osharin I.V., Savilov A.V., “A method for suppression of spurious fundamental-harmonic waves in gyrotrons operating at the second cyclotron harmonic,” Physics of Plasmas, vol. 23 (2016) 053116. DOI: 10.1063/1.4951723.  
    • Girka I.O., Girka V.O., Sydora R.D., Thumm M., “Instability of surface electron cyclotron TM-modes influenced by non-monochromatic alternating electric field,” Physics of Plasmas, vol. 23 (2016) 062106. DOI: 10.1063/1.4953421. 
    • Firihu M.Z., Sudiana I.N., Mitsudo S., “Microwaves Enhanced Sintering Mechanisms in Alumina Ceramic Sintering Experiments,” Contemporary Engineering Sciences, vol. 9, n. 5 (2016) 237-247. DOI: 10.12988/ces.2016.615. 
    • Kalaria P.,  Avramidis K.A., Franck J., Gantenbein G., Illy S., Pagonakis I.Gr., Thumm M, Jelonnek J., "A fast frequency step-tunable 236 GHz gyrotron design for DEMO," 2016 German Microwave Conference (GeMiC), Bochum, 2016, pp. 377-380. DOI:  10.1109/GEMIC.2016.7461635. 
    • Soldatov S., Umminger M., Heinzel A., Link G., Lepers B., Jelonnek J., “Dielectric characterization of concrete at high temperatures,” Cement and Concrete Composites, (2016). DOI: 10.1016/j.cemconcomp. 2016.01.006.
    • Bakunin V.L., Denisov G.G., Novozhilova Yu.V., “Zones of Frequency Locking by an External Signal in a Multimode Gyrotron of a Megawatt Power Level,” Radiophysics and Quantum Electronics, (2016). DOI: 10.1007/s11141-016-9663-0. 
    • Ginzburg N.S., Denisov G.G., Vilkov M.N., Zotova I.V., Sergeev A.S., “Generation of “gigantic” ultra-short microwave pulses based on passive mode-locking effect in electron oscillators with saturable absorber in the feedback loop,” Physics of Plasmas, vol. 23 (2016) 050702. DOI: 10.1063/1.4948553. 
    • Peskov N.Yu., Bandurkin I.V., Kaminsky A.K., Kuzikov S.V., Perelstein E.A., Savilov A.V., Sedykh S.N., Vikharev A.A., “High-power free-electron maser operated in a two-mode frequency-multiplying regime,” Phys. Rev. Accel. Beams, vol. 19 (2016) 060704. DOI:  10.1103/PhysRevAccelBeams.19.060704. 
    • Semenov V. E., Rakova E.I., Glyavin M.Yu., Nusinovich G.S., “Initial Stage of the Microwave Ionization Wave Within a 1D Model,”  Radiophysics and Quantum Electronics (2016). DOI: 10.1007/s11141-016-9664-z.  
    • Semenov V.E., Rakova E.I.,Glyavin M.Yu., Nusinovich G.S., “Breakdown simulations in a focused microwave beam within the simplified model,” Physics of Plasmas, vol. 23 (2016) 073109. DOI: 10.1063/1.4958313. 
    • Ginzburg N.S., Glyavin M.Y., Malkin A.M., Manuilov V.N., Rozental R.M., Sedov A.S., Sergeev AS., Zaslavsky V.Y., Zotova I.V., Idehara T., "Improvement of Stability of High Cyclotron Harmonic Operation in the Double-Beam THz Gyrotrons," IEEE Trans. on Plasma Science, (2016) pp. 7. DOI: 10.1109/TPS.2016.2585307.
    • Samsonov S.V., Bogdashov A.A., Gachev I.G., Denisov G.G.,  Mishakin S.V., "Proof-of-Principle Experiment on High-Power Gyrotron Traveling-Wave Tube With a Microwave System for Driving and Extracting Power Through One Window, "IEEE Microwave and Wireless Components Letters, vol. 26, n. 4 (2016) 288-290. DOI: 10.1109/LMWC.2016.2537541.
    •  Kalynov Yu.K., Osharin I.V., Savilov A.V., “A method for suppression of spurious fundamental-harmonic waves in gyrotrons operating at the second cyclotron harmonic,” Physics of Plasmas, vol. 23 (2016) 053116. DOI: 10.1063/1.4951723.
    • Manuilov V.N., Semenov V.E., "Ion Compensation for Space Charge in the Helical Electron Beams of Gyrotrons," Radiophysics and Quantum Electronics, (2016) 1-10. DOI:10.1007/s11141-016-9673-y.  
    • Franck J., Avramidis K.A., Gantenbein G., Illy S., Pagonakis I.G., Thumm M., Jelonnek J., "Direct Voltage Depression Calculation of Arbitrary Electron Beams in Misaligned Coaxial Gyrotron Cavities," IEEE Trans. on Electron Devices, (2016) 7 pp. DOI: 10.1109/TED.2016.2592533.  
    • Pagonakis I.Gr., Illy S., Thumm M., “Influence of emitter ring manufacturing tolerances on electron beam quality of high power gyrotrons,” Physics of Plasmas, vol.23 (2016) 083103. DOI: 10.1063/1.4959113.  
    • Kuftin A.N., Manuilov V.N., "The Electron-Optical System of a Gyrotron with an Operating Frequency of 263 GHz for Spectroscopic Research," Radiophysics and Quantum Electronics, (2016) 1-7. DOI: 10.1007/s11141-016-9682-x.
    • Illy S., Gantenbein G., Pagonakis I.G., Resznicki T., Zhang J., Jelonnek J., "Studies of transient phenomena in the magnetron injection gun of high power gyrotrons using the esray beam optics code," 2016 IEEE Int. Conference on Plasma Science (ICOPS), Banff, AB, Canada, 2016, pp. 1-1. DOI:10.1109/PLASMA.2016.7533955. 
    • Ueda K., Matsuki Y., Fujiwara T., Tatematsu Y., Ogawa I., Idehara T., "Further Characterization of 394-GHz Gyrotron FU CW GII with Additional PID Control System for 600-MHz DNP-SSNMR Spectroscopy," Journal of Infrared, Millimeter, and Terahertz Waves, vol. 37, n. 9 (2016) 825-836. DOI: 10.1007/s10762-016-0276-7. 
    • Lin M.C., Illy S., Thumm M., Jelonnek J., "Validation of conformal finite difference time domain method for accurate higher order mode simulations," 2016 IEEE International Conference on Plasma Science (ICOPS), Banff, AB, Canada, 2016, pp. 1-1. DOI:  10.1109/PLASMA.2016.7534049.  
    • Glyavin M.Yu., Manuilov V.N., Sominskii G.G., Taradaev E.P., Tumareva T.A., “The Concept of an Electron-Optical System with Field Emitter for a Spectroscopic Gyrotron,” Infrared Physics & Technology, Available online 18 August 2016, ISSN 1350-4495. DOI:10.1016/j.infrared.2016.08.006.  
    • Bykov Y.V.,  Egorov S. V., Eremeev A. G., Kholoptsev V.V., et al., “On the Mechanism of Microwave Flash Sintering of Ceramics, Materials, vol. 9, n. 8, (2016) 1996-1944. DOI: 10.3390/ma9080684.  
    •  Denisov G.G., et al., "45 GHz/20 kW gyrotron-based system for ECR ION source," 2016 IEEE International Conference on Plasma Science (ICOPS), Banff, AB, Canada, 2016, pp. 1-1. DOI:10.1109/PLASMA.2016.7533987.   
    • Morikawa O., Yamamoto K., Kurihara K., Tani M., Kuwashima F., Hangyo M., "Sub-terahertz imaging using time-domain signals obtained with photoconductive spiral antennas," J. Opt. Soc. Am. B, vol.  33 (2016) 1940-1948. DOI: 10.1364/JOSAB.33.001940.
    • Ginzburg N.S., Kocharovskaya E.R., “Quasilinear theory of terahertz free-electron lasers based on Compton scattering of incoherent pump wave by intense relativistic electron beam,” Phys. Rev. Acce.erators and Beams, vol. 19 (2016) 080701. DOI:10.1103/PhysRevAccel Beams.19.080701. 
    • Dumbrajs O., Nusinovich G.S., “Self-consistent non-stationary theory of the gyrotron,” Physics of Plasmas, vol. 23 (2016)  083125. DOI:10.1063/1.4961962. 
    • Kasparek W., Doelman N., Stober J., Maraschek M., et al., “ NTM stabilization by alternating O-point EC current drive using a high-power diplexer,” Nuclear Fusion, vol. 56, n. 12 (2016) 126001 (16 pp).  DOI: 10.1088/0029-5515/56/12/126001.
    • Kalaria P.C.,  Avramidis K.A., Franck J, Gantenbein G., Illy S., Pagonakis I.Gr., Thumm M.,  Jelonnek J., “Systematic cavity design approach for a multi-frequency gyrotron for DEMO and study of its RF behavior,” Physics of Plasmas, vol. 23 (2016) 092503. DOI: 10.1063/1.4962238. 
    • Arzhannikov A.V., Ginzburg N.S., Kalinin P.V., Kuznetsov S.A., Malkin A.M., Peskov N.Yu., Sergeev A.S., Sinitsky S.L., Stepanov V.D., Thumm M., Zaslavsky V.Yu., “Using Two-Dimensional Distributed Feedback for Synchronization of Radiation from Two Parallel-Sheet Electron Beams in a Free-Electron Maser,” Phys. Rev. Lett., vol. 117, n. 11 (2016) 114801. DOI: 10.1103/PhysRevLett.117.114801.
    • Glyavin M.Yu., Oparina Yu.S., Savilov A.V., Sedov A.S., “Optimal parameters of gyrotrons with weak electron-wave interaction,” Physics of Plasmas, vol. 23 (2016) 093108. DOI:10.1063/1.4962523.  
    • Dumbrajs O., Saito T., Tatematsu Y., Yamaguchi Y., “Influence of the electron velocity spread and the beam width on the efficiency and mode competition in the high-power pulsed gyrotron for 300 GHz band collective Thomson scattering diagnostics in the large helical device,” Physics of Plasmas, vol. 23 (2016) 093109. DOI:10.1063/1.4962575. 
    • Sudiana I.N., Mitsudo S., Nishiwaki T., Susilowati P.E., Lestari L., Firihu M.Z., Aripin H.,   “Synthesis and Characterization of Microwave Sintered Silica Xerogel Produced from Rice Husk Ash,” Journal of Physics: Conference Series, vol. 739, n. 1 (2016) 012059. DOI: 10.1088/1742-6596/739/1/012059. 
    • Bykov Yu.V., Egorov S.V., Eremeev A.G., Kholoptsev V.V., Plotnikov I.V., Rybakov K.I., Sorokin A.A., “Sintering of Oxide Ceramics under Rapid Microwave Heating,” Processing, Properties, and Design of Advanced Ceramics and Composites: Ceramic Transactions (John Wiley & Sons, Inc., 2016) vol. CCLIX6. DOI:10.1002/9781119323303.ch20.
    • Idehara T., Sabchevski S.P. “Gyrotrons for High-Power Terahertz Science and Technology at FIR UF,” Journal of Infrared, Millimeter, and Terahertz Waves (2016) 25 pp. DOI: 10.1007/s10762-016-0314-5.
    • Presto J.M.M., Prieto E.A.P., Omambac K.M., Pauline C. Afalla J.P.C., Lumantas D.A.O., Salvador A.A., Somintac A.S., Estacio E.S., Yamamoto K., Tani M., “Confined photocarrier transport in InAs pyramidal quantum dots via terahertz time-domain spectroscopy," Optics Express,  vol. 23, n. 11 (2016) 14532-14540. DOI:10.1364/OE.23.014532.
    • Miyazaki A., Yamazaki T., Idehara T., Tatematsu Y., “Direct Mesurement of the Superfine Spliting of Positronium,” Isotope News, n. 741 (2016) 31-35 (in Japanese). http://www.jrias.or.jp/books/pdf/201601_TENBO_MIYAZAKI_HOKA.pdf
    • Idehara T., Hiromoto N., Sakai K., Tani M., Tominaga K., “Preface: Special Issue: Frontiers in THz Technology II,” Journal of Infrared, Millimeter, and Terahertz Waves, vol. 37, n. 12 (2016) 1157–1157. DOI:10.1007/s10762-016-0319-0.
    • Skalyga V.A., Izotov I.V., Mironov E.A., Voitovich A.V., Palashov O.V., “Design of permanent magnet trap for high current gas dynamic ECR ion sources with plasma heating by gyrotron radiation with frequency up to 45 GHz,” AIP Conference Proceedings, vol. 1771 (2016) 070014. DOI:10.1063/1.4964238.
    • Viktorov M.E., Shalashov A.G., Golubev S.V.,  Gospodchikov E.D., Mansfeld D.A., Vodopyanov A.V., Zaitsev V.V., “Kinetic instabilities in a mirror-confined plasma sustained by high-power microwave radiation,” AIP Conference Proceedings, vol. 1771 (2016) 030005. DOI:10.1063/1.4964161.
    • Koshelev M.A., Tsvetkov A.I., Morozkin M.V., Glyavin M.Yu., Tretyakov M.Yu., “Molecular Gas Spectroscopy Using Radioacoustic Detection and High-Power Coherent Subterahertz Radiation Sources,” Journal of Molecular Spectroscopy, vol. 331 (2016) 9-16. DOI:10.1016/j.jms.2016.10.014.

    • Ginzburg N.S., Rozental R.M., Sergeev A.S., Zotova I.V., Tarakanov V.P., “Chaotic millimeter wave generation in a helical-waveguide gyro-TWT with delayed feedback,” Physics of Plasmas, vol. 23, n.10 (2016) 103106. DOI:10.1063/1.4964918.

    • Vlasov S.N., Koposova E.V., "Diffraction Theory of Two-Mirror Echelette Resonators," Radiophysics and Quantum Electronics, vol. 59, n.4, (2016) 310–316. pp. DOI: 10.1007/s11141-016-9699-1.

    • Fukunari M., Wongsuryrat N., Yamaguchi T., Komurasaki K., Koizumi H., “Design of a Millimeter-Wave Concentrator for Beam Reception in High-Power Wireless Power Transfer," Journal of Infrared, Millimeter, and Terahertz Waves", vol. 38, n. 2 (2016) 176–190. DOI: 10.1007/s10762-016-0327-0.

    • Santos R.D., Ozawa S., Mag-usara V., Azuma S., Tuico A., Copa V., Salvador A., Yamamoto K., Somintac A., Kurihara K., Kitahara H., Tani M., Estacio E., "Cherenkov-phase-matched nonlinear optical detection and generation of terahertz radiation via GaAs with metal-coating," Opt. Express, vol. 24 (2016) 24980-24988. DOI: 10.1364/OE.24.024980.

    • Li H., Wu Z., Zeng J., Kasparek W., Luo Y., Li T., "Design of a Broadband Quasi-Optical Mode Converter for W-Band Gyro-TWTs," IEEE Trans. on Microwave Theory and Techniques, (2016) 8 pp. DOI:10.1109/TMTT.2016.2615610.

    • Wagner D., Leuterer F., Kasparek W. et al., “Minimization of the Ohmic Loss of Grooved Polarizer Mirrors in High-Power ECRH Systems,” Journal of Infrared Millimeter and Terahertz Waves, vol. 38, n. 2 (2016) 191–205. DOI:10.1007/s10762-016-0329-y.

    • Kalynov Y.K., Osharin I.V., Savilov A.V., Zavolsky N.A., "Relativistic Second-Harmonic Gyrotron with a Selective Quasi-Regular Cavity," IEEE Trans. on Electron Devices, vol. 63, n. 12 (2016) 49684974. DOI:10.1109/TED.2016.2618999.

    • Arzhannikov A.V., Annenkov V.V., Burdakov A.V., Burmasov V.S., Ivanov I.A., Kasatov A.A., Kuznetsov S.A., Makarov M.A., Mekler K.I., Polosatkin S.V., Postupaev V.V., Rovenskikh A.F., Sinitsky S.L., Sklyarov V.F., Stepanov V.D., Timofeev I.V., Thumm M.K.A., “Beam-plasma system as a source of powerful submillimeter and terahertz radiation (experimental and theoretical studies,” AIP Conference Proceedings, vol. 1771 (2016) 070004. DOI:10.1063/1.4964228.

    • Chernov V.V., Gorbachev A.M., Vikharev A.L., Radishev D.B., Kozlov A.V., “A continuous microwave discharge maintained by two crossing millimeter-wave beams in hydrogen and argon: numerical simulation and experiment,” Plasma Sources Science and Technology, vol. 25, n. 6 (2016) 065022. DOI:10.1088/0963-0252/25/6/065022.

    • Ginzburg N.S., Malkin A.M., Zheleznov I.V., Sergeev A.S., Kocharovskaya E.R., “Quasi-optical theory of amplification of surface waves propagating above corrugated structures by a relativistic electron beam (impedance approximation),” Technical Physics, vol. 61, n. 11 (2016) 1609-1618. DOI: 10.1134/S1063784216110104.

    • Skalyga V., Izotov I., Golubev S., Razin S., Sidorov A., “H+ and D+ high current ion beams formation from ECR discharge sustained by 75 GHz gyrotron radiation,” AIP Conference Proceedings, 1771 (2016) 070012. DOI:10.1063/1.4964236.

    • Oda Y., Ikeda R., Fukunari M., Ikeyama T., Takahashi K., Kajiwara K., Kobayashi T., Moriyama S., Sakamoto K., Shapiro M.A., Temkin R.J., "Controllability Study of Propagating Mode Content by an Angle-Adjustable Mirror of a Miter-Bend in EC H&CD Transmission Line," IEEE Trans. on Plasma Science, vol. 44, n. 12 (2016) 33923397. DOI: 10.1109/TPS.2016.2627138.

    • Bandurkin I.V., Kalynov Y.K., Makhalov P.B., Osharin I.V., Savilov A.V., Zheleznov I.V., "Simulations of Sectioned Cavity for High-Harmonic Gyrotron," IEEE Trans. on Electron Devices, vol. 64, n. 1 (2017) 300305. DOI:10.1109/TED.2016.2629029.

    • Kakinuma K., Fukunari M., Yamaguchi T., Nakamura Y., Koizumi H., Komurasaki K., Parkin K., “Two-Stage-to-Orbit Transporting System Combining Microwave Rocket and Microwave Thermal Rocket for Small Satellite Launch,” Trans. of the Japan Soc. For Aeronautical and Space Sciences, Aerospace Technology Japan, vol. 14, n. 30 (2016) 99-103. DOI:10.2322/tastj.14.Pb_99.

    • Kuftin A.N., Manuilov V.N., “The Electron-Optical System of a Gyrotron with an Operating Frequency of 263 GHz for Spectroscopic Research," Radiophysics and Quantum Electronics, vol. 59, n. 2 (2016) 30-136. DOI:1007/s11141-016-9682-x.

    • Kalaria P.C., Avramidis K.A., Franck J., Gantenbein G., Illy S., Jin J., Gr. Pagonakis I., Thumm M., Jelonnek J., “RF Behavior and Launcher Design for a Fast Frequency Step-tunable 236 GHz Gyrotron for DEMO,” Frequenz Journal of RF-Engineering and Telecommunications, (2016). DOI: 10.1515/freq-2016-0212.

    • Jelonnek J., et al., “Design Considerations for Future DEMO Gyrotrons: A Review on Related Gyrotron Activities within EUROfusion,” EUROFUSION WPHCD-CP(16) 1651. Preprint of Paper to be submitted for publication in Proceedings of 29th Symposium on Fusion Technology (SOFT 2016)

    • Ginzburg N.S., Glyavin M.Yu., Malkin A.M., Manuilov V.N., Rozental R.M., Sedov A.S., Sergeev A.S., Zaslavsky V.Yu., Zotova I.V., Idehara T., "Improvement of Stability of High Cyclotron Harmonic Operation in the Double-Beam THz Gyrotrons," IEEE Transactions on Plasma Science, vol. 44, n. 8 (2016) 1303-1309. DOI:10.1109/TPS.2016.2585307.

    • Ginzburg N.S., Glyavin M.Yu., Zotova I.V., Zheleznov I.V., “Optimization of the self-excitation conditions of terahertz gyrotrons based on an increased lifetime of the cyclotron oscillators in the working space with a lowered voltage,” Journal of Technical Physics Letters, vol. 43, n. 2 (2017) 52-59 (In Russian). ISSN: 0320-0116, DOI: 10.21883/PJTF.2017.02.44187.16273.

    • Jin J., Thumm M., Gantenbein G., Jelonnek J., "A Numerical Synthesis Method for Hybrid-Type High-Power Gyrotron Launchers," IEEE Trans. on Microwave Theory and Techniques, (2016) 8 pp. DOI:10.1109/TMTT.2016.2630060.

    • Peskov N.Yu., Bandurkin I.V., Donetc D.E., Kaminsky A.K., Perelstein E.A., Sedykh S.N., Zaslavsky V.Yu., “High-power broadband 30-GHz FEM amplifier operated in the grazing incident regime,” Appl. Phys. Lett., vol. 110 (2017) 013501. DOI:10.1063/1.4973465.

    • Idehara T., Khutoryan E.M., Ogawa I., Matsuki Y., Fujiwara T., “(Invited Review Paper) Modulation and Stabilization of the Output Power and Frequency of FU Series Gyrotrons,” Terahertz Science and Technology, vol. 9, n. 4 (2016) 117-130. DOI: 10.11906/TST.117-130.2016.12.12.

    • Schaub S.C., Hummelt J.S., Guss W.C., Shapiro M.A., Temkin R.J., “Electron density and gas density measurements in a millimeter-wave discharge,” Physics of Plasmas, vol. 23, n. 8 (2016) 083512. DOI:10.1063/1.4959171.
    • Sudiana I.N., Mitsudo S., Firihu M.Z., Aba L., Ngkoimani L.O., Arsana M.W., Aripin H., Tahir D., Halide H., Surungan T., Hasanah N., “Investigation of silica from rice husk ash wastes as an alternative material for microwave absorbers,” AIP Conference Proceedings, vol. 1801 (2017) 040003. DOI: 10.1063/1.4973092.

    • Agusu La, Mitsudo S., Ahmad L.O., Herdianto, Fujii Y., Ishikawa Y., Furuya T., Ramadhan L.A.N, “Transmission characteristic of graphene/TiO2 paper measured at Ka-band,” AIP Conf. Proc., 1801 (2017) 050006. DOI: 10.1063/1.49731

    • Girka I.O., Thumm M., “Excitation of azimuthal surface waves in the electron cyclotron frequency range by a rotating electron beam in presence of dissipation,” Physics of Plasmas, vol. 23, n. 12 (2016) 1070-664X. DOI:10.1063/1.4972820.

    • Reyes A.D.L., Prieto E.A., Omambac K., Porquez J., Lopez L. Jr., Gonzales K.C., Vasquez J.D., Tumanguil M.A., Muldera J., Yamamoto K., Tani M., Somintac A., Estacio E., Salvador A., “Terahertz emission characteristics of GaMnAs dilute magnetic semiconductor under 650 mT external magnetic field,” Current Applied Physics, (2017). DOI:0.1016/j.cap.2017.01.021.

    Selected Presentations at International Conferences

    • Idehara T., Kuleshov A., Khutoryan E., Tatematsu Y., “High power THz technologies opened by high frequency gyrotrons covering sub-THz to THz region (Plenary presentation)," The 9 th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW 2016), June 20~24, 2016, IRE-NASU, Kharikov, Ukraine.
    •  Idehara T., Ogawa I., Mitsudo S., Fujii Y., Hagiwara M., Kida T., Takata M., “Gyrotron FU II for a radiation source of THz ESR spectroscopy with a high field pulse magnet,” The 9 th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW 2016), June 20~24, 2016, IRE-NASU, Kharikov, Ukaine.

    Selected Presentations at at the 41st International Conference on Infrared, Millimeter, and Terahertz Waves IRMMW-THz 2016 (25-30 September 2016, Copenhagen, Denmark).

                                                                                             Proceedings available at: IRMMW-THz 2016

    • Idehara T., “Development and application of high power THz radiation sources – Gyrotrons,” (Invited Plenary Talk), 41st International Conference on Infrared, Millimeter, and Terahertz waves IRMMW-THz 2016 (25-30 September 2016, Copenhagen, Denmark).
    • Denisov G., Glyavin M., “Development of Gyro-Devices at IAP/GYCOM in the Range from Gigahertz to Terahertz,” (Keynote Talk), H2D.5, ibid.
    • Saito T., “High Power Oscillation Test of 300 GHz Band Gyrotron for Practical use in Collective Thomson Scattering Diagnostics in LHD,” (Keynote Talk), H4B.1, ibid.
    • Saito T., Yamaguchi Y., Tatematsu Y., Hirobe T., Kasa J., Ohkubo K., Kubo S., Shimozuma T., Tanaka K., Nishiura M., Fukunari M., “Transmission Test of 300 GHz Band Gyrotron Power by Corrugated Waveguides,” H5P.16.03, ibid.
    • Yamaguchi Y., Tatematsu Y., Saito T., “Influence of Thermal-insulation Structure of Thermionic Cathode on Oscillation Efficiency of a Sub-THz Gyrotron,” H5P.21.12, ibid.
    • Tatematsu Y., Yamaguchi Y., Kotera M., Saito T., “Frequency Tunability in both 200 and 400 GHz Bands Realized in Gyrotrons FU CW GIV and FU CW X,” H5P.21.13, ibid.
    • Melnikova M., Rozhnev A., Ryskin N., Saito T., Tatematsu Y., Yamaguchi Y., “Modeling of a Complex-Cavity Resonator for the 0.4 THz Second-Harmonic Frequency-Tunable Gyrotron,” H5P.21.16, ibid.
    • Chang T.-S., Idehara T., “Frequency-Tunable, Terahertz Gyrotron for the Direct Measurement of the Transition of Positronium,” H5P.21.10, ibid.
    • Khutoryan E., Idehara T., Melnikova M., Rozhnev A., Ryskin N., “Influence of Reflections on Frequency Stability, Tunability and Mode Competition in the Second-Harmonic THz Gyrotron,” H5P.21.28, ibid.
    • Khutoryan E., Idehara T., Tatematsu Y., Yamaguchi Y., Kuleshov A., Matsuki Y., “Gyrotron Output Frequency and Power Stabilization by PID Feedback Control on The Acceleration and Anode Voltages,” H5P.21.02, ibid.
    • Saito T., Tatematsu Y., Yamaguchi Y., Dumbrajs O., “Start-up Scenario of a High-Power Pulsed Gyrotron for 300 GHz Band Collective Thomson Scattering Diagnostics in the Large Helical Device,” H5P.21.03, ibid.
    • Glyavin M., Manuilov V., Zotova I., Khutoryan E., Malkin A., Morozkin M., Rozental R., Sedov A., Tsvetkov A., Zaslavsky V., Ginzburg N., Idehara T., “Development and Preliminary Tests of a Second Harmonic Double-Beam Continuous Wave Gyrotron with Operating Frequency of 0.79 THz,” H2D.3, ibid.
    • Mishakin S., Samsonov S., Sobolev D., Gashturi A., Denisov G., “Radiation Input/Output System of a Broadband W-band Gyrotron Traveling-Wave Amplifier,” H2D.4, ibid.
    • Avramidis K., Pagonakis I., Chelis I., Gantenbein G., Ioannidis Z., Peponis D., Rzesnicki T., Jelonnek J., “Simulations of the Experimental Operation of The EU 170 GHz, 1 MW Short-Pulse Prototype Gyrotron for ITER,” H5P.21.18, ibid.
    • Pagonakis I., Dammertz G., Gantenbein G., Illy S., Piosczyk B., Thumm M., Zhang J., Jelonnek J., “Impact of Emitter Ring Manufacturing Tolerances on Electron Beam Quality in High Power Gyrotrons,” H5P.21.26, ibid.
    • Jawla S., Hoffmann H., Shapiro M., Temkin R.J., Hanson G., “Measurement of Polarization Properties of ECRH Polarizers at 170 GHz,” H5P.21.30, ibid.
    • Genoud J., Tran T.-M., Alberti S., Kaminski P., Braunmueller F., Hogge J.-Ph., Quang M., Temkin R.J., “Sart-up Scenario Studies in Gyrotron Oscillator using a Novel Linear and Spectral Code,” H2D.1, ibid.
    • Santos R., Ozawa S., Mag-usara V.K., Azuma S., Tuico A., Copa V., Salvador A., Yamamoto K., Somintac A., Kurihara K., Kitahara H., Tani M., Estacio E., “Cherenkov-type Generation and Detection of Terahertz Radiation in a GaAs with Metal-coat Structure,” W5P.08.02, ibid.
    •  Li D., Wang Y., Nakajima M., Hashida M., Wei Y., Miyamoto S., Tani M., “Terahertz Radiation from Graphene Surface Plasmon Polaritons,” W5P.08.08, ibid.

    • Kitahara H., Yasumoto T., Yamamoto K., Furuya T., Notake T., Minamide H., Bakunov M., Tani M., “Heterodyne Terahertz Electro-optic Sampling using DAST Crystal,” W5P.08.34, ibid.

    • Qiu H., Harada H., Kato K., Takano K., Kurihara T., Suemoto T., Tani M., Sarukura N., Yoshimura M., Nakajima M., “Enhanced Terahertz Magnetic Near-field by Tapered Waveguide in Double Split-ring Resonator Coupled Tb3Ga5O12 Crystal,” W5P.14.08, ibid.

    • Mag-usara V.K., Bulgarevich D., Shiwa M., Tani M., “THz Emission-based Magnetic Field Distribution Mapping Using InSb as Probe Semiconductor,” T5P.09.26, ibid.

    • Kuwashima F., Shirao T., Kishibata T., Akamine Y., Iwao K., Ooi M., Sakaue N., Sirasaki T., Gouda S., Tani M., Kurihara K., Yamamoto K., Nagashima T., Nakajima M., Hangyo M., “High Efficient MLD-THz-TDS Systems using Laser Chaos and Super Focusing with Metal V-grooved Waveguide,” T5P.19.08, ibid.

    • Kurihara K., Kuwashima F., Morikawa O., Yamamoto K., Tani M., “Plasmonic Superfocusing Modes of THz Waves in Metallic V-groove Tapered Waveguide Considered by Quasi-separation of Variables,” M5P.10.09, ibid.

    • Tani M., Yasumoto T., Gotoh D., Kitahara H., Furuya T., Yamamoto K., Bakunov M., “Improvement of Heterodyne THz Electro-Optic Sampling Technique,” W2C.4, ibid.



    2015

    • Glyavin M.Y., Idehara T., Sabchevski S.P., "Development of THz Gyrotrons at IAP RAS and FIR UF and Their Applications in Physical Research and High-Power THz Technologies," IEEE Trans. on Terahertz Science and Technology, vol. 5 (2015) 788-797. DOI: 10.1109/TTHZ.2015.2442836.
    • Sabchevski S.P., Idehara T., “A Numerical Study on Finite-Bandwidth Resonances of High-Order Axial Modes (HOAM) in a Gyrotron Cavity,” Journal of Infrared, Millimeter and Terahertz Waves, vol. 36 (2015) 628-653. DOI: 10.1007/s10762-015-0161-9.
    • Yamaguchi Y., Saito T., Tatematsu Y., Ikeuchi S., Manuilov V., Kasa J., Kotera M., Idehara T., Kubo S., Shimozuma T., Tanaka K., Nishiura M., "High-power pulsed gyrotron for 300-GHz-band collective Thomson scattering diagnostics in the Large Helical Device," Nuclear Fusion, vol. 55 (2015) 13002.  DOI:10.1088/0029-5515/55/1/013002.
    • Khutoryan E.M., Idehara T., Kuleshov A.N., Tatematsu Y.,  Yamaguchi Y., Matsuki Y., Fujiwara T., "Stabilization of Gyrotron Frequency by PID Feedback Control on the Acceleration Voltage," Journal of Infrared, Millimeter and Terahertz Waves,"  vol. 36 (2015) 1157-1163. DOI: 10.1007/s10762-015-0212-2.
    • Idehara T., Tatematsu Y., Yamaguchi Y.,  Khutoryan E.M., Kuleshov A.N., Ueda K., Matsuki Y.,  Fujiwara T., "The Development of 460 GHz gyrotrons for 700 MHz DNP-NMR spectroscopy," Journal of Infrared, Millimeter and Terahertz Waves, vol. 36 (2015)  613-627. DOI: 10.1007/s10762-015-0150-z.
    • Idehara T., Khutoryan E.M., Tatematsu Y. , Y. Yamaguchi,  Kuleshov A.N., Dumbrajs O., Matsuki Y. ,  Fujiwara T.,  "High-Speed Frequency Modulation of a 460-GHz Gyrotron for Enhancement of 700-MHz DNP-NMR Spectroscopy," Journal of Infrared, Millimeter and Terahertz Waves, vol. 36 (2015) 819-829. DOI:10.1007/s10762-015-0176-2.
    • Tatematsu Y, Yusuke Y., Ichioka R., Kotera M., Saito T., Idehara T., "Development of the Multifrequency Gyrotron FU CW GV with Gaussian Beam Output," Journal of Infrared, Millimeter, and Terahertz Waves" vol. 36 (2015) 697-708. DOI: 10.1007/s10762-015-0173-5.
    • Miyazaki A.,  Yamazaki T., Suehara T., Namba T, Asai S., Kobayashi T., Saito H., Tatematsu Y.,  Ogawa I., Ideharaet T., “First millimeter-wave spectroscopy of ground-state positronium,” Prog. Theor. Exp. Phys., (2015)  011C01 (10 pp). DOI: 10.1093/ptep/ptu181.
    • Glyavin M.Yu,  Chirkov, A.V., Denisov G. G., Fokin A.P., Kholoptsev V.V., Kuftin A.N., Luchinin A.G., Golubyatnikov G.Yu., Malygin V. I., Morozkin M.V.,  Manuilov V. N., Proyavin M.D., Sedov A.S., Sokolov E.V., Tai E.M., Tsvetkov A.I., Zapevalov V.E., "Experimental tests of a 263 GHz gyrotron for spectroscopic applications and diagnostics of various media,"  Review of Scientific Instruments, vol. 86 (2015) 054705. DOI: 10.1063/1.4921322
    • Fokin A.P., Glyavin M.Yu., Nusinovich G.S., "Effect of ion compensation of the beam space charge on gyrotron operation,"  Physics of Plasmas, vol. 22 (2015) 043119. DOI: 10.1063/1.4918947.
    • Glyavin M.Yu., Manuilov V.N., Morozkin M.V.,"Efficiency of gyrotrons working at the second harmonic of gyrofrequency with multistage systems for recuperation of residual electron energy," Technical Physics, vol. 60 (2015) 757-760. DOI: 10.1134/S1063784215050059.
    • Glyavin M.Yu., Kuntsevich A.D., Manuilov V.N., "Suppression of the Oscillatory Modes of a Space Charge in the Magnetron Injection Guns of Technological Gyrotrons," Journal of Infrared, Millimeter, and Terahertz Waves, vol. 36 (2015) 7-12. DOI: 10.1007/s10762-014-0101-0.
    • Glyavin M.Yu., Denisov G.G., Kulygin M.L., Novozhilova Yu.V., "Stabilization of gyrotron frequency by reflection from nonresonant and resonant loads," Technical Physics Letters, vol. 41 (2015) 628-631. DOI: 10.1134/S106378501507007X.
    • Schlaich A., Gantenbein G., Illy S., Jelonnek J., Thumm M., "Observation of Discrete Frequency Hopping in MW-Class Gyrotrons During Long-Pulse Operation," IEEE Transactions on Electron Devices, vol. 62 (2015) 3049-3055. DOI: 10.1109/TED.2015.2455023.
    • Franck J.,  Avramidis K., Gantenbein G., Illy S., Jin J., Thumm M., Jelonnek J., "A generic mode selection strategy for high-order mode gyrotrons operating at multiple frequencies," Nuclear Fusion, vol. 55 (2015) 013005. DOI: 10.1088/0029-5515/55/1/013005.
    • Dhakad R.K., Baghel G.S., Kartikeyan M.V., Thumm M.K., "Output System for a 170-GHz/1.5-MW Continuous Wave Gyrotron Operating in the TE28,12 Mode,"  IEEE Transactions on Plasma Science, vol.43 (2015) 391-397. DOI: 10.1109/TPS.2014.2368254.
    • Roy Choudhury A., Kern S., Thumm M., "Study of Dynamic After Cavity Interaction in Gyrotrons—Part I: Adiabatic Approximation," IEEE Transactions on Electron Devices, vol. 62 (2015) 184-191. DOI: 10.1109/TED.2014.2368631.
    • Roy Choudhury A., D'Andrea D., Thumm M., "Study of Dynamic After Cavity Interaction in Gyrotrons—Part II: Influence of a Nonuniform Magnetic Field," IEEE Transactions onElectron Devices, vol. 62 (2015) 192-199. DOI: 10.1109/TED.2014.2367314.
    • Chuanren Wu, Avramidis K.A., Thumm M., Jelonnek J., "An Improved Broadband Boundary Condition for the RF Field in Gyrotron Interaction Modeling,"   IEEE Transactions on Microwave Theory and Techniques, vol. 63 (2015) 2459-2467. DOI: 10.1109/TMTT.2015.2433270.
    • Schlaich A., Wu Ch., Pagonakis I., Avramidis K., Illy S., Gantenbein G., Jelonnek J., Thumm M., "Frequency-Based Investigation of Charge Neutralization Processes and Thermal Cavity Expansion in Gyrotrons", Journal of Infrared, Millimeter, and Terahertz Waves, vol. 36 (2015) 1866-6892. DOI: 10.1007/s10762-015-0177-1.
    • Nusinovich G.S., Dumbrajs O., "Field Formation in the Interaction Space of Gyrotrons," Journal of Infrared, Millimeter, and Terahertz Waves, (2015) 12pp. DOI: 10.1007/s10762-015-0192-2.
    • Manuilov V.N., Glyavin M.Yu, Sedov A. S., Zaslavsky V. Yu., Idehara T., "Design of a Second Harmonic Double-Beam Continuous Wave Gyrotron with Operating Frequency of 0.79 THz, Journal of Infrared, Millimeter and Terahertz Waves," Volume 36 (2015) 1164-1175. DOI: 10.1007/s10762-015-0209-x

    • Semenov V.E., Rakova E.I., Glyavin M.Yu., Nusinovich G.S., "Study of a Stationary Breakdown Wave Under the Conditions of Noticeable Reflection of the Incident Electromagnetic Wave from a Gas-Discharge Plasma," Radiophysics and Quantum Electronics, Vol. 58 (2015) 327-338. (Russian Original Vol. 58, No. 5, May, 2015). DOI: 10.1007/s11141-015-9607-0.

    • Huang Y.J. ,  Chu K.R.,  Thumm M. "Self-consistent modeling of terahertz waveguide and cavity with frequency-dependent conductivity," Physics of Plasmas, vol. 22 (2015) 013108. DOI: 10.1063/1.4905627.
    • Kharchev N., Cappa Á., Malakhov D., Martínez J., Konchekov E., Tolkachev A., Borzosekov V., Sarksyan K., Petelin M., "Influence of Controlled Reflected Power on Gyrotron Performance," Journal of Infrared, Millimeter, and Terahertz Waves, vol. 36 (2015) 1145-1156.  DOI: 10.1007/s10762-015-0206-0.

    • Bandurkin I.V., Kalynov Y.K., Savilov A.V., "Experimental Realization of the High-Harmonic Gyrotron Oscillator With a Klystron-Like Sectioned Cavity," IEEE Transactions on Electron Devices, vol. 62 (2015) 2356-2359. DOI: 10.1109/TED.2015.2432858.
    • Savilov A.V., Denisov G.G., Kalynov Y.K., Osharin I.V., Two-wave regime of operation of the high-harmonic gyrotron,” Phys. Plasmas, vol. 22 (2015) 043104. DOI: 10.1063/1.4916766.

    • Avramidis K.A., “Investigations and advanced concepts on gyrotron interaction modeling and simulations,” Physics of Plasmas, vol. 22 (2015) 123114. DOI: 10.1063/1.4938043.

    • Petelin M.I., “The gyrotron: physical genealogy,” Terahertz Science and Technology, vol. 8 (2015) 157-169. DOI: 10.11906 /TST.157-169.2015.12.15. Available at: http://www.tstnetwork.org/December2015/tst-v8n4-157gyrotron.pdf

    • Yamaguchi Y., Kasa J., Saito  T., Tatematsu Y., Kotera M., Kubo S., Shimozuma T., Tanaka K., Nishiura M., ”High power 303 GHz gyrotron for CTS in LHD,” Journal of Instrumentation, vol. 10, no. 10 (2015) C10002.
    • Niehues G., Funkner S., Bulgarevich D.S., Tsuzuki S., Furuya T., Yamamoto K., Shiwa M., Tani M., "A matter of symmetry: terahertz polarization detection properties of a multi-contact photoconductive antenna evaluated by a response matrix analysis," Optics Express, vol. 23, n. 12 (2015) 16184-16195. DOI: 10.1364/OE23.016184.
    • Tsuzuki S., Kuzuu N., Horikoshi H., Saito K., Yamamoto K., Tani M., "Influence of OH-group concentration on optical properties of silica glass in terahertz frequency region," Applied Physics Express, vol. 8 (2015) 072402. DOI:10.7567/APEX8.072402.
    • Mashkovich E.A., Shugurov A.I., Ozawa S., Estacio E., Tani M., Bakunov M.I., "Noncollinear Electro-Optic Sampling of Terahertz Waves in a Thick GaAs Crystal," IEEE Trans. on Terahertz Science and Technology, vol. 5, n. 5 (2015) 732 – 736. DOI: 10.1109/TTHZ.2015.2461439.
    • Järvinen J., Zvezdov D., Ahokas J., Sheludyakov S., Vainio O., Lehtonen L., Vasiliev S., Fujii Y.,  Mitsudo S., Mizusaki T., Gwak M., Lee S.G., Lee S., Vlasenko L., "Microscopic control of 29Si nuclear spins near phosphorus donors in silicon," Phys. Rev. B, vol. 92, n. 12 (2015) 121202-1-5. DOI:10.1103/PhysRevB.92.121202.
    • Bulgarevich D.S., Shiwa M., Niehues G., Tani M.,"Linear Dichroism Detection and Analysis in Terahertz Spectral Range," IEEE Trans. on Terahertz Science and Technology, vol. 5, n. 6 (2015)1097-1099. DOI:10.1109/TTHZ.2015.2465180.
    • Tanaka K., Nishiura M., Kubo S., Shimozuma T., Saito T., “Progress of microwave collective Thomson scattering in LHD,” Journal of Instrumentation, vol. 10, n.12 (2015) C12001. DOI:10.1088/1748-0221/10/12/C12001.
    • Nishiura M., Kubo S., Tanaka K., Kobayashi S., Okada K., Okada K.J., Nishimura T., Mushiake T., Shimozuma T., Mutoh T., Saito T., Tatematsu Y., Yamaguchi Y., “Improved notch filter for microwave plasma diagnostics in 70 GHz range,” Journal of Instrumentation, vol. 10, n.12 (2015) C12014. DOI: 10.1088/1748-0221/10/12/C12014.
    • Santos G.N.C., Tibayan E.B., B. Castillon G.B., Estacio E., Furuya T., Iwamae A., Yamamoto K.,  Tani M., "Tin Oxide-Silver Composite Nanomaterial Coating for UV Protection and Its Bactericidal Effect on Escherichia coli (E.coli)," In: Photocalytic Coatings for Air-Purifying, Self-Cleaning and Antimicrobial Properties, pp.41-49 (December 2015). DOI: 10.3390/coatings4020320.
    • Idehara T., Khutoryan E.M., Tatematsu Y., Yamaguchi Y., Kuleshov A.N., Ueda K., Matsuki Y., FujiwaraT., “The development of 460 GHz gyration's for enhancement of 700 MHz DNP-NMR spectroscopy,” Journal of Infrared, Millimeter and Terahertz Waves, vol. 36, n. 7 (2015) 613-627. DOI:10.1007/ s10762-015-0150-z.
    • Niehues G., Funkner S., Bulgarevich D.S., Tsuzuki S., Furuya T., Yamamoto K., Shiwa M., Tani M., "A matter of symmetry: terahertz polarization detection properties of a multi-contact photoconductive antenna evaluated by a response matrix analysis," Optics Express, vol. 23, n. 12 (2015) 16184-16195. DOI: 10.1364/OE23.016184.
    • Tsuzuki S., Kuzuu N., Horikoshi H., Saito K., Yamamoto K., Tani M., "Influence of OH-group concentration on optical properties of silica glass in terahertz frequency region," Applied Physics Express, vol. 8 (2015) 072402. DOI:10.7567/APEX8.072402.
    • Mashkovich E.A., Shugurov A.I., Ozawa S., Estacio E., Tani M., Bakunov M.I., "Noncollinear Electro-Optic Sampling of Terahertz Waves in a Thick GaAs Crystal," IEEE Trans. on Terahertz Science and Technology, vol. 5, n. 5 (2015) 732 – 736. DOI: 10.1109/TTHZ.2015.2461439.
    • Järvinen J., Zvezdov D., Ahokas J., Sheludyakov S., Vainio O., Lehtonen L., Vasiliev S., Fujii Y.,  Mitsudo S., Mizusaki T., Gwak M., Lee S.G., Lee S., Vlasenko L., "Microscopic control of 29Si nuclear spins near phosphorus donors in silicon," Phys. Rev. B, vol. 92, n. 12 (2015) 121202-1-5. DOI:10.1103/PhysRevB.92.121202.
    • Bulgarevich D.S., Shiwa M., Niehues G., Tani M.,"Linear Dichroism Detection and Analysis in Terahertz Spectral Range," IEEE Trans. on Terahertz Science and Technology, vol. 5, n. 6 (2015)1097-1099. DOI:10.1109/TTHZ.2015.2465180.
    • Tanaka K., Nishiura M., Kubo S., Shimozuma T., Saito T., “Progress of microwave collective Thomson scattering in LHD,” Journal of Instrumentation, vol. 10, n.12 (2015) C12001. DOI:10.1088/1748-0221/10/12/C12001.
    • Nishiura M., Kubo S., Tanaka K., Kobayashi S., Okada K., Okada K.J., Nishimura T., Mushiake T., Shimozuma T., Mutoh T., Saito T., Tatematsu Y., Yamaguchi Y., “Improved notch filter for microwave plasma diagnostics in 70 GHz range,” Journal of Instrumentation, vol. 10, n.12 (2015) C12014. DOI: 10.1088/1748-0221/10/12/C12014.
    • Santos G.N.C., Tibayan E.B., B. Castillon G.B., Estacio E., Furuya T., Iwamae A., Yamamoto K.,  Tani M., "Tin Oxide-Silver Composite Nanomaterial Coating for UV Protection and Its Bactericidal Effect on Escherichia coli (E.coli)," In: Photocalytic Coatings for Air-Purifying, Self-Cleaning and Antimicrobial Properties, pp.41-49 (December 2015). DOI: 10.3390/coatings4020320.
    • Idehara T., Khutoryan E.M., Tatematsu Y., Yamaguchi Y., Kuleshov A.N., Ueda K., Matsuki Y., FujiwaraT., “The development of 460 GHz gyration's for enhancement of 700 MHz DNP-NMR spectroscopy,” Journal of Infrared, Millimeter and Terahertz Waves, vol. 36, n. 7 (2015) 613-627. DOI: 10.1007/ s10762-015-0150-z.

    Presentations in International Conferences

    • Idehara T., Tatematsu Y., Yamaguchi Y., Khutoryan E., Kuleshov A., Matsuki Y. and Fujiwara T., “Development of 460 GHz gyrotrons for application to 700 MHz DNP-NMR spectroscopy,” 6th THz-Bio Workshop 2015, April 9 – 10, 2015, Seoul National University.
    • Idehara T.,  Khutoryan E., Tatematsu Y., Yamaguchi Y.,  Kuleshov A., Dumbrajs O., Matsuki Y.,  T. Fujiwara, “High speed frequency modulation of a 460 GHz gyrotron for application to the 700 MHz DNP enhanced NMR spectroscopy,” IRMMW-THz 2015, Hong Kong, August 23 - 28, 2015. DOI:  10.1109/IRMMW-THz.2015.7327859.
    • Dumbrajs O., Khutoryan E.M., and T. Idehara, “Hysteresis and Frequency Tunability of Gyrotrons,” IRMMW-THz 2015, Hong Kong, August 23 - 28, 2015.  DOI: 10.1109/IRMMW-THz.2015.7327858.
    • Tatematsu Y., Yamaguchi Y., Ichioka R., Kotera M., Saito T., Idehara T., “Advancement of oscillation efficiency by improvement of electron beam quality in Gyrotron FU CW GIA,” IRMMW-THz 2015, Hong Kong, August 23 - 28, 2015. DOI:  10.1109/IRMMW-THz.2015.7327764.
    • Glyavin M.Yu., Manuilov V.N., Ginzburg N.S., Malkin A.M., Zaslavsky V.Yu., Proyavin M.D., Rozental R.M., Sedov A.S., Sergeev A.S., Zotova I.V., Zapevalov V.E., Idehara T., “Project of CW high harmonics double-beam gyrotrons with operating frequencies in the range 0.7 - 1.0 THz,” IRMMW-THz 2015, Hong Kong, August 23 - 28, 2015. DOI: 10.1109/IRMMW-THz.2015.7327426.
    • Idehara T., (invited) “High power THz technologies opened by high frequency gyrotrons,” 2015 Taiwan THz Science and Technology (2015 T-TW) Dec. 4-6, 2015.
    • Idehara T., “Introduction to International Collaborations on the basis of the International Consortium Meeting of Scientific Consortium on THz Photonics and Optoelectronics,” 16 -17/12/2015, MSU, Moscow, Russia.
    • Idehara T., Khutoryan E., Tatematsu Y., Yamaguchi Y., Kuleshov A., Matsuki I., Fujiwara T., “Frequency Modulation and Stabilization of sub-THz DNP-NMR Spectroscopy,” Second International Symposium on Frontiers in THz technology (FTT 2015) , 30 August – 2 September 2015, Hamamatsu, Japan.
    • Fujii Y., Kikuchi H., Nakagawa K., Takada S., Fujisawa M., "1H-NMR Study of Spin-1/2 Triple-chain Magnet Cu3(OH)4MoO4," Physics Procedia, vol. 75, 589-596 (2015). DOI: 110.1016/j.phpro.2015.12.075.
    • Kikuchi H., Kunieda K., Asano T., Fujii Y., Inagaki Y., Matsuo A., Kindo K., "Magnetic Properties of the Novel Frustrated Lattice Magnet Likasite," Physics Procedia 75, 653-658 (2015). DOI:110.1016/j.phpro.2015.12.084.





















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