SIMULATION AND DESIGN OF A NOVEL CHAIN BUNCHING CAVITY FOR GYROKLYSTRON AMPLIFIER

[in Chinese]; [in Chinese]

[1] Granatstein V L, Lawson W. Gyro-amplifiers as candidate RF drivers for TeV linear coliders. IEEE Trans. Plasma Sci., 1996, 24(3): 648-663

[2] Neilson J M, Ies R L, Read M. Development update of a 10MW, 91GHz Gyroklystron. Third IEEE Int. Vacuum Electronics Conf. Dig., USA: Monterey, California, 2002, 89-90

[3] Liu P K, Xu S X, Liang X F. Proposals for a novel Ka-band frequency-tripling gyroklystron amplifier. 27th Int. Conf. IR&MM Waves, USA:San Diego, 2002, W4.5

[4] Calame J P, Garven M, Choi J J. Experimental studies of bandwidth and power production in a three-cavity, 35GHz gyroklystron amplifier. Phys. Plasma, 1999, 6: 285-297

[5] Antokov I I, Zasypkin E V, Sokolov E V. 35GHz radar gyroklystron. In: Proc. 18th Int. Conf. IR&MM Waves. Washington: Bellingham, Society of Photo-Optical Engineering, 1993, 338-339

[6] Blank M, Danly B G, Levush B. Experiment investigation of W-Band(93 GHz)gyroklystron amplifiers. IEEE Trans. Plasma Science, 1998, 26(3): 409-415

[7] Lawson W, Calame J P, Hogan B P. Performance characteristics of a high-power X-Band two-cavity gyroklystron. IEEE Trans. Plasma Science, 1992, 20(3): 216-223

[8] Ngo M T, Danly B G, Myers R. High-power millimeter-wave transmitter for the NRL WARLOC radar. Third IEEE Int. Vacuum Electronics Conf. Dig., USA: Monterey, California, 2002, 363-364

[9] Tolkachev A A, Makota V A, Pavlova M P. A large-apertured radar phased array antenna of Ka band. Proc. 28th Moscow Int. Conf. Antenna Theory and Technology. Russia: Moscow, 1998

[10] Symons R S. An experimental cluster-cavity. Technical Digest,1986 International Electron Devices Meeting, Piscataway, NJ.: IEEE Press, 1986, 204

[11] Symons R S, Vaughan J R M. The linear theory of the cluster-cavityTM klystron. IEEE Trans. Plasma Sci., 1994, 22(5): 713-718

[12] Guo H, Miao Y Y, Rodgers J. A new triplet gyrotron amplifier, the gyrotriotron. Third IEEE Int. Vacuum Electronics Conf. Dig.,USA:Monterey, California, 2002: 119-120

[13] Granatstein Victor L. MURI 99 on innovative vacuum electronics DoD (AFOSR) MURI 99 MVE Review. Monterey, USA: California, 2000

[14] Miao Y Y, Guo H, Granatstein V L. TE clustered-cavity and extended interaction cavity wideband gyro-amplifiers. Record of Pulsed Power Plasma Science,, IEEE Conference, USA: Las Vegas Nevada, 2001: 514

[16] Saraph G P, Lawson W, Castel M. 100-150MW designs of two-and three-cavity gyroklystron amplifiers operating at the fundamental and second harmonics in X-band and Ku-bands. IEEE Trans. Plasma Sci., 1996, 24(3): 671-677

[17] Yovchev I G, Lawson W G, Nusinovich G S. Present status of 17.1GHz four-cavity frequency-doubling coaxial gyroklystron design. IEEE Trans. Plasma Sci., 2000, 28(3): 523-528

[18] Walter M T, Nusinovich G S, Granatstein V L. Design of a frequency-doubling, 35GHz,1MW gyroklystron. IEEE Trans. Plasma Sci., 2000, 28(3): 688-693

[19] Baik C W, Kim D H. Experimental study on Ka-band harmonic-multiplying two-stage tapered gyro-twt. Third IEEE Int. Vacuum Electronics Conf. Dig., USA: Monterey, California, 2002, 365-366