[1] Serlin V,Frideman M.Development and optimization of the relativistic klystron amplifier[J].IEEE Trans on Plasma Science,1994,22(5):692-700.

[2] Allen M A,Alberts D P,Hopkins D B,et al.Recent progress in relativistic klystron research[J].Particle Accelerators,1990,30:192-196.

[3] Barker R J,Schamiloglu E.High-power microwave sources and technologies[M].New York:IEEE Press,2001.

[4] Lee T G,Konrad G T.The design and performance of a 150 MW klystron at S band[J].IEEE Trans on Plasma Science,1985,13(6):545-552.

[5] Lee T G.Multiple extraction cavities for high-power klystrons[J].IEEE Trans on Electron Devices,1993,40(7):1329-1334.

[6] Jess M.Interchange of energy between an electron beam and an oscillating electric field[J].J Appl Phys,1946,17(8):4-11.

[7] 范植开,刘庆想,崔学芳.双间隙谐振腔的高频分析[J].强激光与粒子束,2001,13(1):79-83.(Fan Z K,Liu Q X,Cui X F.Analysis on the high frequency characteristics of the double-gap resonator.High Power Laser and Particle Beams,2001,13(1):79-83)

[8] 崔学芳.C波段双间隙输出腔的理论分析和实验研究[D].北京:中国工程物理研究院研究生部,2000.(Cui X F.Theory analysis and experiment investigations of C-band double-gap output cavity.Beijing:Graduate School of CAEP,2000)

[9] 雷禄容,范植开,黄华,等.S波段相对论速调管放大器同轴输出腔的数值模拟[J].强激光与粒子束,2006,18(10):1677-1681.(Lei L R,Fan ZH K,Huang H,et al.Numerical simulations of coaxial output cavity of S-band relativistic klystron amplifier.High Power Laser and Particle Beams,2006,18(10):1677-1681)

[10] 范植开.渡越管振荡器的理论研究与原理性实验[D].北京:中国工程物理研究院研究生部,1999:19-24.(Fan Z K.Theory analysis and experiment of the transit-time tube oscillator.Beijing:Graduate School of CAEP,1999:19-24)

[11] 黄华.L波段相对论速调管放大器设计的理论分析与实验研究[D].北京:中国工程物理研究院研究生部,2001:9-12.(Huang H.Theory analysis and experiment investigations of L-band relativistic klystron amplifier.Beijing:Graduate School of CAEP,2001:9-12)