[1] Kishek R A, Lau Y Y, Ang L K, et al. Multipactor discharge on metals and dielectrics: historical review and recent theories[J]. Physics of Plasmas, 5, 2120-2126(1998).

[2] Shen Fazhong, Wang Xinbo, Cui Wanzhao, et al. Nonstationary statistical theory for single-surface dielectric multipactors[J]. IEEE Transactions on Plasma Science, 48, 433-437(2020).

[3] Li Yun, Feng Guobao, Xie Guibai, . Multipactor evolution and suppression in high-power ferromagnetic components[J]. High Power Laser and Particle Beams, 34, 063002(2022).

[4] Vaughan J R M. Multipactor[J]. IEEE Transactions on Electron Devices, 35, 1172-1180(1988).

[5] [5] Shemelin V D. Multipact disge in a rectangular waveguide with regard to nmal tangential velocity components of secondary electrons[R]. SRF01032203, 2001.

[6] Greenblatt M H. A microwave secondary electron multiplier[J]. Review of Scientific Instruments, 20, 646-650(1949).

[7] [7] Geng Rongli, Padamsee H, Shemelin V D. Multipacting in a rectangular waveguide[C]Proceedings of 2001 Particle Accelerat Conference. 2001: 12281230.

[8] Anderson D, Jordon U, Lisak M, et al. Microwave breakdown in resonators and filters[J]. IEEE Transactions on Microwave Theory and Techniques, 47, 2547-2556(1999).

[9] Gonzalez-Iglesias D, Perez A M, Anza S, et al. Multipactor in a coaxial line under the presence of an axial DC magnetic field[J]. IEEE Electron Device Letters, 33, 727-729(2012).

[10] Rozario N, Lenzing H F, Reardon K F, et al. Investigation of Telstar 4 spacecraft Ku-band and C-band antenna components for multipactor breakdown[J]. IEEE Transactions on Microwave Theory and Techniques, 42, 558-564(1994).

[11] Liu Ming, Wang Xiaotian, Lu Fan, . The high power multipactor on typical satellite-borne helix antenna[J]. Spacecraft Environment Engineering, 39, 55-60(2022).

[12] Woode A, Petit J. Investigations into multipactor breakdown in satellite microwave payloads[J]. ESA Journal, 14, 467-478(1990).

[13] Semenov V E, Zharova N, Udiljak R, et al. Multipactor in a coaxial transmission line. II. Particle-in-cell simulations[J]. Physics of Plasmas, 14, 033509(2007).

[14] [14] ESAESTEC. Space engineering: multipacting design test[R]. Nodwijk: ESA Publication Division, 2003.

[15] Zhai Yonggui, Li Jixiao, Wang Hongguang, . Adaptive scanning method for multipactor threshold prediction in microwave devices[J]. High Power Laser and Particle Beams, 30, 073006(2018).

[16] Cui Wanzhao, Li Yun, Yang Jing, et al. An efficient multipaction suppression method in microwave components for space application[J]. Chinese Physics B, 25, 068401(2016).

[17] Li Yun, Cui Wanzhao, Zhang Hongtai, . A novel simulation method of multipactor in complex component for satellite application[J]. Chinese Space Science and Technology, 37, 73-80(2017).

[18] Geng R L, Goudket P, Carter R G, et al. Dynamical aspects of multipacting induced discharge in a rectangular waveguide[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 538, 189-205(2005).

[19] Wang Xinbo, Cui Wanzhao, Wei Huan, . Comparative study of electron seeding in multipactor test[J]. High Power Laser and Particle Beams, 30, 063010(2018).

[20] [20] Anza S, Vicente C, Gil J, et al. Experimental verification of multipact prediction methods in multicarrier systems[C]Proceedings of the 46th European Microwave Conference. 2016: 226229.

[21] [21] Puech J, Lapierre L, Sombrin J, et al. A multipact threshold in waveguides: they experiment[C]Proceedings of NATO Advanced Research Wkshop on QuasiOptical Control of Intense Microwave Transmission. 2005: 305323.