Гиротронные комплексы - разработка и применение
 
   

Статьи в сборниках и трудах конференций

2007 г.

  1. A.G.Litvak, G.G.Denisov, V.N.Il’in, V.E.Myasnikov, E.M.Tai, A.L.Vikharev, V.E.Zapevalov Resent Results of Development in Russia of High Power Gyrotrons // Conf. Digest of the Joint 32nd International Conference on Infrared and Millimeter Waves   and 15th International Conference on Terahertz Electronics, Cardiff, UK, September 3 - 7, 2007, p.41-43

  2. I.V.Bandurkin, V.L.Bratman, G.G.Denisov, I.G.Gachev, Y.K.Kalynov, A.V.Savilov High-Harmonic Gyrodevices with Frequency Multiplication // Conf. Digest of the Joint 32nd International Conference on Infrared and Millimeter Waves   and 15th International Conference on Terahertz Electronics, Cardiff, UK, September 3 - 7, 2007, p.321-322

  3. S.V.Samsonov, V.L.Bratman, G.G.Denisov, I.G.Gachev, M.Yu.Glyavin, V.N.Manuilov Gyro-TWTs and Gyro-BWOs with Helically Corrugated Waveguides // Conf. Digest of the Joint 32nd International Conference on Infrared and Millimeter Waves   and 15th International Conference on Terahertz Electronics, Cardiff, UK, September 3 - 7, 2007, p.578-579

  4. G.G.Denisov, D.I.Sobolev Method for Synthesis of Wideband Multimode Waveguide Units // Conf. Digest of the Joint 32nd International Conference on Infrared and Millimeter Waves   and 15th International Conference on Terahertz Electronics, Cardiff, UK, September 3 - 7, 2007, p.777-778

  5. S.V. Usachev, M.V.Agapova, A.A.Bogdashov, A.V.Chirkov, G.G.Denisov, A.Ph.Gnedenkov, V.I.Ilyin, V.N.Ilyin, A.N.Kostyna, A.N.Kuftin, A.G.Litvak, V.I.Malygin, V.E.Myasnikov, V.O.Nichiporenko, L.G. Popov, E.A.Soluyanova, E.M.Tai, V.E.Zapevalov New test results of  170GHz/1MW/CW gyrotron for ITER // Conf. Digest of the 32-th Int. Conference on Infrared and Millimeter Waves and 15-th Int. Conference on Terahertz Electronics, 2007, Sept.2- Sept.7 Cardiff, UK, Conference Digest, p.44-45.

  6. V.E. Zapevalov Gyrotron: resources for development // Conf. Digest of the 32-th Int. Conference on Infrared and Millimeter Waves and 15-th Int. Conference on Terahertz Electronics, 2007, Sept.2- Sept.7 Cardiff, UK, Conference Digest, p.100-10.

  7. G.Denisov, Yu.Bykov, A.Eremeev, M.Glyavin, V.Kholoptsev, G.Kalynova, G.Luchinin, M.Morozkin, I.Plotnikov, D.Sobolev High Efficient Gyrotron-Based Systems for Materials Processing // Eighth IEEE International Vacuum Electronics Conference, Kitakyushu, Japan, May 15-17, 2007, pp. 433-434
       
  8. K.I. Rybakov, A.G. Eremeev, S.V. Egorov, Yu.V. Bykov, Z. Pajkic, M. Willert-Porada Study of phase transformations in nanostructured alumina heated by variable-intensity microwave field // Proc. 11th International Conference on Microwave and High Frequency Heating, ed. by A.M. Silaghi and I.M. Gordan, Editura Universitatii din Oradea, Oradea, Romania, 2007, pp. 223 – 226.

  9. O.I. Getman, V.V. Panichkina, P.Ya. Radchenko, V.V. Skorokhod, A.G. Eremeev, I.V. Plotnikov Influence of microwave heating on the interdiffusion in the oxide system Al2O3 – Cr2O3. // Proc. 11th International Conference on Microwave and High Frequency Heating, ed. by A.M. Silaghi and I.M. Gordan, Editura Universitatii din Oradea, Oradea, Romania, 2007, pp. 228 – 231.

  10. А.G. Eremeev, I.V. Plotnikov, K.I. Rybakov, Yu.V. Bykov, А.I. Rachkovskii Comparative study of diffusion rates during lead titanate synthesis under microwave and conventional heating. // Proc. 11th International Conference on Microwave and High Frequency Heating, ed. by A.M. Silaghi and I.M. Gordan, Editura Universitatii din Oradea, Oradea, Romania, 2007, pp. 232 – 235.

  11. S.V. Egorov, A.G. Eremeev, V.V. Kholoptsev, I.V. Plotnikov, A.A. Sorokin, Yu.V. Bykov, Yu.A. Kotov, V.V. Ivanov Microwave sintering of oxide ceramics from nanosize powders. // Proc. 11th International Conference on Microwave and High Frequency Heating, ed. by A.M. Silaghi and I.M. Gordan, Editura Universitatii din Oradea, Oradea, Romania, 2007, pp. 317 – 320.
     
  12. S.V. Usachev, M.V.Agapova, A.A.Bogdashov, A.V.Chirkov, G.G.Denisov, A.Ph.Gnedenkov, V.I.Ilyin, V.N.Ilyin, A.N.Kostyna, A.N.Kuftin, A.G.Litvak, V.I.Malygin, V.E.Myasnikov, V.O.Nichiporenko, L.G. Popov, E.A.Soluyanova, E.M.Tai, V.E.Zapevalov. New test results of  170GHz/1MW/CW gyrotron for ITER // Conf. Digest of 32-th Int. Conference on Infrared and Millimeter Waves and 15-th Int. Conference on Terahertz Electronics, 2007, Sept.2- Sept.7 Cardiff, UK, p.44-45.

2006 г.

  1.  G.G.Denisov, S.V.Kuzikov, D.I.Sobolev, A.A.Vikharev New TE01 Waveguide Bends // Conf. Digest of the Joint 31th International Conference on Infrared     and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 45.

  2. S.V. Kuzikov, M.E. Plotkin, G.G.Denisov, I.S.Kulagin, N.I.Zaitsev Mode Selectivity Enhancement in Cavities of Relativistic Gyrotrons // Conf. Digest of the Joint 31th International Conference on Infrared and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 68.

  3.  G.G.Denisov, V.I.Belousov, A.B.Pavel’ev, A.V.Chirkov, V.N.Ilin, V.I.Kurbatov, S.A.Malygin, V.E.Myasnikov, V.B.Orlov, E.A.Soluyanova, E.V.Sokolov, E.M.Tai Multi-Frequency Gyrotron with BN Brewster Window // Conf. Digest of the Joint 31th International Conference on Infrared and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 75.

  4. I.V.Bandurkin, V.L.Bratman, G.G.Denisov, I.G.Gachev, Yu.K.Kalynov,  A.V.Savilov  New Schemes of High-harmonic Gyro-devices with Frequency Multiplication //  Conf. Digest of the Joint 31th International Conference on Infrared and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 83.

  5. G.G.Denisov, A.V.Chirkov Iteration Methods in Analysis and Synthesis of Multi-Mode Microwave Systems // Conf. Digest of the Joint 31th International Conference on Infrared     and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 196.

  6. V.O.Nichiporenko, M.V.Agapova,  G.G.DenisovV.I.Ilyin, A.G.Litvak, S.A.Malygin, V.E.Myasnikov,  L.G.Popov, E.A.Soluyanova, V.E.Zapevalov, E.M.Tai State of the Art of 1 MW/105-140 GHz/10 Sec Gyrotron Project in GYCOM // Conf. Digest of the Joint 31th International Conference on Infrared and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 338.

  7. A.V.Chirkov, G.G.Denisov, V.I.Malygin, M.A.Moiseev, A.N.Kuftin, S.Yu.Kornichin, V.E.Zapevalov Study of synthesized launcher for the 105-140 GHz multi-frequency gyrotron // Conf. Digest of the Joint 31th International Conference on Infrared and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 377.

  8. G. Denisov, Yu. Bykov, A. Eremeev, V. Kholoptsev, M. Glyavin,  A. Luchinin, G. Kalynova, I. Plotnikov 24-28 GHz Gyrotron-based Sources for Technological Applications // Conf. Digest of the Joint 31th International Conference on Infrared and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 500.

  9. M.V.Agapova, G.G. Denisov, V.I.Ilyin, A.G.Litvak, V.E.Myasnikov,  L.G.Popov, S.V.Usachev, V.E.Zapevalov, E.M.Tai  Recent Results in the Development of 170 GHz/CW Gyrotrons for ITER // Conf. Digest of the Joint 31th International Conference on Infrared     and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, p.p. 516.

  10. V.E. Zapevalov, T. Idehara, A.N. Kuftin, O.V. Malygin, S. Mitsudo, M.A. Moiseev, I. Ogawa, N.A. Zavolsky Preliminary Project of the 52 GHz/1 kW/CW Second Harmonic Gyrotron with Permanent Magnet // Conf. Digest of the Joint 31th International Conference on Infrared     and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, Conference Digest, p.23. (Доклад был представлен В.Л.Братманом)

  11. T. Saito, T. Idehara, S. Mitsudo, I. Ogawa, H. Hoshizuki, H. Murase, K. Sakai , V.E. Zapevalov, O.V. Malygin, V.I. Khizhnjak Oscillation Characteristics of CW 300 GHz Gyrotron FU CWI // Conf. Digest of the Joint 31th International Conference on Infrared     and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, Conference Digest, p.24.

  12. S. Mitsudo, K. Sakai, T. Idehara, T. Saito, V. E. Zapevalov 300 GHz gyrotron material processing system // Conf. Digest of the Joint 31th International Conference on Infrared     and Millimeter Waves and 14th International Conference on Terahertz  Electronics,  Shanghai, China, September 18-20, 2006, Conference Digest, p.572.

  13. M.A. LaPointe, J.L. Hirshfield, E.V. Kozyrev, A.A. Bogdashov, A.V. Chirkov, G.G. Denisov, A.S. Fix, D.A. Lukovnikov, V.I. Malygin, Yu.V. Rodin, M.Y. Shmelyov, S.V. Kuzikov, A.G. Litvak, O.A. Nezhevenko, M.I. Petelin, A.A. Vikharev, V.P. Yakovlev, G.V. Serdobintsev, S.V. Shchelkunov  Ka-band Test Facility for High-gradient Accelerator R&D // Proceedings EPAC 2006, Scotland, Edinburg, 2006,  p.p. 1408.

  14. G. G. Denisov, A. G. Litvak, V. E. Myasnikov, E. M. Tai, V. I. Ilin, V.E.Zapevalov Megawatt-power gyrotrons for fusion // Proceedings of the International Workshop "Strong Microwave in Plasmas", ed.A.G.Litvak, N.Novgorod, 2006, pp.62-75.
    300GHz/4kW/ CW Gyrotron // Proceedings of the International Workshop "Strong Microwave in Plasmas", ed.A.G.Litvak, N.Novgorod, 2006, pp.167-172

  15. A.G.Litvak, G.G.Denisov, V.E.Myasnikov, E.M.Tai, V.E.Zapevalov Development in Russia of High Power Gyrotrons for Fusion // Proceedings of the 14th Joint Worrkshop on Electron Cyclotron Emissiom and Electron Cyclotron Resonance Heating. –EC-14, Santorini, Greece, 9-12 May 2006, Editor Avrilios Lazaros, Heliotopos Conferences Ltd, p.404-411

  16. V.E.Zapevalov Gyrotron: limits of growth // Proceedings of the 14th Joint Worrkshop on Electron Cyclotron Emissiom and Electron Cyclotron Resonance Heating. –EC-14, Santorini, Greece, 9-12 May 2006, Editor Avrilios Lazaros, Heliotopos Conferences Ltd, p.526-530

Статьи в научных журналах

2007 г.

  1. Запевалов В.Е., Малыгин О.В., Моисеев М.А. и др. Мощный генератор непрерывного электромагнитного излучения частотой 300 ГГц. // Изв. Вузов. Радиофизика, 2007, т.50, №6, с.461-470.

  2. S. V. Egorov, K.I. Rybakov, V. E. Semenov, Yu. V. Bykov, O. N. Kanygina, E. B. Kulumbaev, V. M. Lelevkin. Role of convective heat removal and electromagnetic field structure in the microwave heating of materials // Journal of Materials Science 42, 2097–2104 (2007), (IF = 0.999)

  3. 23. Bogdashov A.A., Rodin Yu.V. Mode Converter Synthesis by the Particle Swarm Optimization //Int. Journal of Infrared and Millimeter Waves, August 2007, vol.28, N 6, pp. 627-638, (IF = 0.326)

  4. V.E.Zapevalov Increasing Power and Efficiency of gyrotrons // Fusion Science and Technology,       August 2007 –Vol.52, No2, pp 340-344, (IF = 0.678)

  5. A.V. Vodopyanov, S.V. Golubev, I.V. Izotov, V.I. Khizhnyak, D.A. Mansfeld, V.A. Skalyga, V.G. Zorin ECR Plasma with 75 GHz Pumping, // High Energy Physics and Nuclear Physics, Vol. 31, Supp. I, Jul., 2007, P. 152 – 155. , (IF = 0.287)

  6. A.V. Vodopyanov, S.V. Golubev, V.I. Khizhnyak, D.A. Mansfeld, A.G. Nikolaev, E.M. Oks, G.Yu.Yushkov Multiple Ionization of Metal Ions in SMIS 75 //, High Energy Physics and Nuclear Physics, Vol. 31, Supp. I, Jul., 2007, P. 159 – 161. , (IF = 0.287)

2006 г.

  1. D. Bora, Sunil Kumar, Raj Singh, K. Sathyanarayana, S.V. Kulkarni, A. Mukherjee, B.K. Shukla, J.P. Singh,    Y.S.S. Srinivas, P. Khilar, M. Kushwah, Rajnish Kumar, R. Sugandhi, P. Chattopadhyay, Singh Raghuraj, H.M. Jadav,    B. Kadia, Manoj Singh, Rajan Babu, P. Jatin, G. Agrajit, P. Biswas, A. Bhardwaj, D. Rathi, G. Siju, K. Parmar,    A. Varia, S. Dani, D. Pragnesh, C. Virani, Harsida Patel, P. Dharmesh, A.R. Makwana, P. Kirit, M. Harsha, J. Soni,    V. Yadav, D.S. Bhattacharya, M. Shmelev, V. Belousov, V. Kurbatov, Yu. Belov and E. Tai     Cyclotron resonance heating systems for SST-1 // Nuclear Fusion / Institute of Physics Publishing and Int. Atomic Energy Agency, vol. 46,  2006,     p.p. 72-84., (IF = 2.839)

  2. K.I. Rybakov, V.E. Semenov, S.V. Egorov, A.G. Eremeev, I.V. Plotnikov and Yu. V. Bykov Microwave heating of conductive powder materials // J. Appl. Phys., v.99, 023506-(1-9), 2006 (2.498)
    In recent years, a considerable interest has been drawn to microwave heating of powder metals and other electrically conductive materials. In this paper a consistent formulation describing the absorption of microwaves in electrically conductive materials under different microwave heating conditions is developed. A special case when conductive powder particles are surrounded by insulating oxide layers is investigated in detail using the effective-medium approximation. The conditions giving rise to skin effect governed, volumetric, and localized microwave heating are analyzed. Experimental observations of different microwave heating regimes in silicon, iron, and copper powder compacts are in general agreement with the theoretical model.

  3. S.V. Egorov, A.G. Eremeev, I.V. Plotnikov, V.E. Semenov, A.A. Sorokin, N.A. Zharova and Yu. V. Bykov Edge effect in microwave heating of conductive plates // J. Phys. D: Appl. Phys., v.39, 2006, pp. 3036-3041 (1.957)
    It has been observed that the microwave annealing of doped silicon wafers n the multimode cavity is accompanied by a specific temperature rise in the near-edge region of the wafer. Experimental investigation and theoretical analysis suggest that the effect is not a result of the microwave irradiation non-uniformity but occurs due to the diffraction of electromagnetic waves on the edge of a thin conducting plate. The level of local overheating depends on the polarization and propagation direction of the incident electromagnetic wave. It is most pronounced in the case when the wave vector is parallel to the plate surface but perpendicular to the plate edge. A method of the plate screening has been suggested to suppress the edge effect and improve the temperature uniformity over the plate during heating. The efficiency of the method has been confirmed by a FDTD numerical simulation of the microwave field near an edge of the plate irradiated isotropically in the multimode cavity.

  4. G.Vayakis, C.I.Walker, F.Clairet, R.Sabot, V.Tribaldos, T.Estrada, E.Blanco, J.Sanchez, G.G.Denisov, V.I.Belousov, F.Da Silva, P.Varela, M.E.Manso, L.Cupido, J.Dias, N.Valverde, V.A.Vershkov, D.A.Shelukhin, S.V.Soldatov, A.O.Urazbaev, E.Yu.Frolov and S.Heuraux.   Status and prospects for mm-wave reflectometry in ITER // Nuclear Fusion / Institute of Physics Publishing and Int. AtomicEnergyAgency, vol. 46,  2006,     p.p. 836-845. (3.418)
    На установке ИТЕР с помощью рефлектометрической системы в сантиметровом и миллиметровом диапазонах длин волн предполагается осуществлять диагностику профиля плотности плазмы и определять форму и положение плазменных образований. Рефлектометрическая система должна быть частью общего проекта ИТЕР и адаптирована к нему с учётом специфических технических требований ИТЕР выработанных в 2001 году. В статье описано состояние и пути развития рефлектометрической системы с учётом специфических технических требований ИТЕР. Показано, что данная система диагностики может быть адаптирована ко всем требованиям общего проекта ИТЕР.

  5. A. Bogdashov, G. Denisov, D. Lukovnikov, Y. Rodin, D. Sobolev and J. Hirshfield Oversized Ka-band traveling wave window for a high-power transmission // IEEE Transactions on Microwave Theory and Techniques, Vol.54, Issue 12, Part 1, p.p. 4130-4135. (2.275).
    Рассчитано, сконструировано и реализовано сверхразмерное  СВЧ окно, пригодное для пропускания мощного излучения в Ка-диапазоне. Принцип действия СВЧ окна  основан на создании в области диэлектрика структуры СВЧ поля с равной нулю электрической компонентой на стенке волновода и минимальным полем на поверхности диэлектрика.

  6. Kulygin M. L., Denisov G. G., Chirkov A. V. and Kuzikov S. V.   Numerical simulation of open waveguide converters using FDTD method.  // Int. J. of IRMM Waves, Vol. 27, No. 4, April 2006. (0.337)