回旋速调管放大器及其发展评述

刘濮鲲; 徐寿喜

回旋速调管放大器及其发展评述

计量
- 文章访问数: 2596
- HTML全文浏览量: 92
- PDF下载量: 769
- 被引次数: 0
出版历程
- 收稿日期: 2002-04-08
- 修回日期: 2002-07-10
- 刊出日期: 2003-05-19

Review of gyroklystron amplifiers and its development

摘要

摘要: 回旋速调管放大器是一种具有重要发展前景的高功率相干毫米波源。该文简要介绍了回旋速调管的结构和工作机理,详细评述了国际上回旋速调管的发展状况及趋势,指出了发展中存在的一些关键问题,并提出了自己的建议。
- 回旋速调管放大器; 毫米波相干辐射源
Abstract: Gyroklystron is one of the most promising high-power coherent millimeter wave sources. The configuration and operating mechanism of the gyroklystrons are briefly introduced. The state-of-art and developing trend are reviewed in detail. Some remaining critical problems are also discussed and some suggestions are also presented.

HTML全文

参考文献(1)

[1] J.M. Burke, M. A. Czarnaski, R. P. Fischer, et al., Design of an 85GHz TE1,3 phase-locked gyroklystron oscillator experiment, Int. J. Electronics, 1991, 70(7), 1109-1130. [2] I.I. Antakov, A. V. Gaponov, V. A. Ginzburg, et al., An amplifier of electromagnetic oscillations in centimeter, millimeter and submillimeter wavelength regions, Copyright No.302050 with priority of June 16, 1967; Official Bulletin KDIO of SM USSR, 1975, 41, 205. ［3］A.A. Andronov, V. A. Flyagin, A. V. Gaponov, et al., The gyrotron: high power source of millimeter and submillimeter waves, Infrared Phys. 1978, 18(5/6), 385-393. [3] I.I. Antakov, A. V. Gaponov, E. V. Zasypkin, et al., Gyroklystrons-millimeter wave amplifiers of the highest power, Proc. 1993 Int. Symp. Strong Microwaves in Plasmas, Moscow- N. NovgorodMoscow, 1994, 587. [4] H.R. Jory, F. Friedlan, S. J. Hegji, et al., Gyrotrons for high-power millimeter wave generation,Dig. IEEE Int. Electron Devices Meeting, Washington D. C., 1977, 234-237. [5] R.S. Symons, H. R. Jory. Cyclotron Resonance Devices, In Advances in Electronics and Electron Physics, Vol. 55, L. Marton Eds, New York, Academic Press, 1981, 1-75. [6] W.M. Bollen, A. H. McCurdy, J. H. McAdoo, et al., Operational characteristics of the NRL gyroklystron amplifier, IEEE Trans. on Nuclear Sci., 1985, 32(5), 2879-2880. [7] W.M. Bollen, A. H. McCurdy, R. K. Paker, et al., Design and performance of a three-cavity gyroklystron amplifier, IEEE Trans. on Plasma Science, 1985, 13(6), 417-423. [8] B. Arfin, A. K. Ganguly, A three-cavity gyroklystron amplifier experiment, Int. J. Electronics,1982, 53(6), 709-714. [9] E. M. Demidovich, I. S. Kovalev, A. A. Kurayev, et al., Efficiency-optimized cascaded circuits utilizing the cyclotron resonance, Radio Eng. Electron. Phys., 1973, 18(10), 1542-1549. [10] S. V. Kolosov, A. A. Kurayev, Comparative analysis of the interaction at the first and second harmonics of the cyclotron frequency in gyroresonance devices, Radio Eng. Electron. Phys, 1974,19(10), 65-73. [11] A.A. Kurayev, F. G. Shevchenko, V. P. Shetakovich, Efficiency-optimized output cavity profiles that provide a higher margin of gyroklystron stability, Radio Eng. Electron. Phys, 1974, 19(5),96-103. [12] V.I. Kanavets, O. I. Klimov, The electron efficiency of a monotron and klystron with a relativistic polyhelical electron beam, Radio Eng. Electron. Phys., 1976, 21(11), 78-83 [13] R.S. Symons, H. R. Jory, Small-signal theory of gyrotrons and gyroklystrons, in Proc. 7th Symp.Eng. Probl. Fusion. Res., Knoxville, TN, 1977, 1111-1115. [14] I.S. Kovalev, A. A. Kurayev, S. V. Kolosofv, et al., The effect of space charge in gyroresonance devices with thin equally mixed and axially symmetrical electron beams, Radio Eng. Electron.Phys., 1974, 19(5), 149-151. [15] A.A. Kurayev, A. F. Stekolnikov, Study of influence of space charge forces on electron bunching in drift tube of gyroklystron, Radio Eng. Electron. Phys.,1980, 25(9), 78-84. [16] A.P. Keier, Electron flux bunching with spread in electron velocities in a gyroklystron with a nonuniform magnetic field, Radio Phys. Quantum Electron., 1978, 21(6), 631-635. [17] A.P. Keier, Modes of operation of output cavity of a gyroklystron with electron velocity spread and nonuniform mangetostatic field, Radio Phys. Quantum Electron., 1978, 21(6), 636-642. [18] A.K. Ganguly, K. R. Chu, Analysis of two-cavity gyroklystron, Int. J. Electronics, 1981, 51(4),503-520. [19] Caplan.[J].Gain characteristics of stagger-tuned multi-cavity gyroklystron amplifier, in Conf. Dig.8th Int. Conf. IR MM Waves, Miami, FL, Dec. 12-1.1983,:- [20] A.K. Ganguly, A. W. Fliflet, A. H. McCurdy, Theory of multicavity gyroklystron amplifier based on a Greens function approach, IEEE Trans. on Plasma Sci., 1985, 13(6), 409-416. [21] T. M. Tran, K. E. Kreischer, R. J. Temkin, Self-consistent theory of a harmonic gyroklystron with a minimum Q cavity, Phys. Fluids, 1986, 29(11), 3858 3863. [22] T. M. Tran, B. G. Danly, K. E. Kreischer, et al., Operation of gyroklystron efficiency, Phys.Fluids, 1986, 29(4), 1274-1281. [23] H. R. Jory, Millimeter Wave Gyrotron Development Phase I, Rome Air Development Center,Griffiss AFB, Rome, NY, Tech. Rep. RADCTR-77-210, 1977. [24] S.J. Hegji, H. R. Jory, High-Power Millimeter Wave Amplifier, Rome Air Development Center,Griffiss AFB, Rome, NY, Interim Rep. RADCTR-78-235, 1978. [25] D.S. Furuno.[J].D. B. McDermott, N. C. Luthmann, Jr., et al., Design and operation of a highharmonic gyro-klystron amplifier, in Conf. Dig. 8th Int. Conf. IRMM Waves, Miami, FL, Dec.,12-1.1983,:- [26] D. S. Furuno, D. B. McDermott, N. C. Luthmann, Jr., et al., A high-harmonic gyro-klystron amplifier: theory and experiment, Int. J. Electronics, 1984, 57(6), 1151-1165. [27] K.R. Chu, D. S. Furuno, N. C. Luhmann, Jr., et al., Theory, design, and operation of large-orbit high-harmonic gyroklystron amplifiers, IEEE Trans. on Plasma Sci., 1985, 13(6), 435-443. [28] P. E. Latham, W. Lawson, V. Irwin, The design of a 100MW, Ku band second harmonic gyroklystron experiment, IEEE Trans. On Plasma Sci., 1994, 22(5), 804-817. [29] D.B. McDermott, C. K. Chong, N. C. Luhmann, Jr., et al., High-harmonic slotted gyroklystron amplifier: linear theory and nonlinear simulation, IEEE Trans. on Plasma Sci., 1994, 22(5),920-931. [30] J.D. Mcnally, D. B. McDermott, N. C. Luhmann, Jr., et al., Third-harmonic TE411 gyroklystron amplifier, IEEE Trans. on Plasma Sci., 1998, 26(3), 496-499. [31] J. D. Mcnally, D. B. McDermott, Q. S. Wang, et al., High performance, 70kV third-harmonic smooth-bore gyroklystron amplifier, IEEE Trans. on Plasma Sci., 1994, 22(5), 932-938. [32] G. P. Saraph, W. Lawson, M.Castel, et al., 100 150MW designs of two- and three-cavity gyroklystron amplifiers operating at the fundamental and second harmonics in X-band and Kubands, IEEE Trans. on Plasma Sci., 1996, 24(3), 671-677. [33] I. G. Yovchev, W. G. Lawson, G. S. Nusinovich, et al., Present status of 17.1GHz four-cavity frequency-doubling coaxial gyroklystron design, IEEE Trans. On Plasma Sci., 2000, 28(3), 523-528. [34] M.T. Walter, G. S. Nusinovich, V. L. Granatstein, et al., Design of a frequency-doubling, 35GHz,1MW gyroklystron, IEEE Trans. on Plasma Sci., 2000, 28(3), 688-693. [35] G. S. Nusinovich, O. Dumbrajs, Two-harmonic prebunching of electrons in multi-cavity gyrodevices, Phys. Plasmas, 1995, 2(2), 568-577. [36] G.S. Nusinovich, B. Levush, O. Dumbrajs, Optimization of multistage harmonic gyro-devices,Phys. Plasmas, 1996, 3(8), 3133-3144. [37] W. Lawson, V. Specht, Design comparison of single-anode and double-anode 300MW magnetron injection gun, IEEE Trans. on Electron Devices, 1993, 40(7), 1322-1328. [38] K. T. Nguyen, B. G. Danly, B. Levush, et al., Electron gun and collector design for 94GHz gyro-amplifiers, IEEE Trans. on Plasma Sci., 1998, 26(3), 799-813. [39] J.P. Calame, J. Cheng, B. Hogan, et al., Measurements of velocity ratio in a 90 MW gyroklystron electron beam, IEEE Trans. on Plasma Sci., 1994, 22(4), 476-485. [40] X. Xu, C. Liu, J. Anderson, et al., Development of an X-Band advanced-concept input system for high-power gyroklystron, IEEE Trans. on Plasma Sci., 1999, 27(2), 520-530. [41] A.H. McCurdy and J. J. Choi, Design and analysis of a coaxial coupler for a 35GHz gyroklystron amplifier, IEEE Trans. on Microwave Theory and Techniques, 1999, 47(2), 164-175. [42] M. Garven, W. M. Manheimer, M. Blank, Simple theory of input couplers for gyroklystron amplifiers, IEEE Trans. on Plasma Sci., 1998, 26(3), 433-443. [43] M. Blank, B. G. Danley, B. Levush, et al., Experimental demonstration of a W-band gyroklystron amplifier, Phys. Rev. Lett., 1997, 79(2), 4485-4488. [44] M. Boton, T. M. Antonsen, Jr., B. Levush, et al., MAGY: a time dependent code of

施引文献

资源附件(0)

访问统计