OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

红外与毫米波学报 2003

新型回旋速调管放大器链式群聚腔的模拟与设计

Keywords: 回旋速调管放大器谐波倍增群聚腔损耗介质三维电磁模拟驻波分布毫米波源

Full-Text Cite this paper Add to My Lib

Abstract:

对新型回旋速调管放大器的链式群聚腔—TE模簇腔进行研究，通过三维电磁模拟对其进行分析和计算，讨论了损耗介质对群聚腔Q值的影响，以及内外腔耦合孔数量对谐振特性的影响．模拟计算结果和冷测实验吻合得很好．最后，为正在研制中的Ka波段三次谐波倍增回旋速调管放大器设计了一种链式群聚腔。

References

[1]	【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
[2]	【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
[3]	【10】Symons R S. An experimental cluster-cavity. Technical Digest,1986 International Electron Devices Meeting, Piscataway, NJ.: IEEE Press, 1986, 204
[4]	【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
[5]	【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
[6]	【13】Granatstein Victor L. MURI 99 on innovative vacuum electronics DoD (AFOSR) MURI 99 MVE Review. Monterey, USA: California, 2000
[7]	【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
[8]	【15】ZHANG Ke-Qian. Microwave and Opticwaveguide Technology. Beijing: Defense and Industrial press(张克潜.微波与光波导技术.北京:国防工业出版社), 1994: 260
[9]	【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
[10]	【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
[11]	【1】贾云峰,来国军,刘濮鲲, "Ka波段基波回旋行波管放大器的模拟与设计",红外与毫米波学报 24, 386-389(2005)
[12]	【2】徐勇,罗勇,熊彩东,刘迎辉,李宏福, "回旋速调管加载损耗介质群聚腔的研究",强激光与粒子束 17, 1870-1874(2005)
[13]	【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
[14]	【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
[15]	【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
[16]	【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
[17]	【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
[18]	【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
[19]	【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
[20]	【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
[21]	【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

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133