Multipactor evolution and suppression in high-power ferromagnetic components

Yun Li; Guobao Feng; Guibai Xie; Guanghui Miao; Xiaojun Li; Wanzhao Cui; Yongning He

doi:10.11884/HPLPB202234.210479

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

[6] Yang Jing, Cui Wanzhao, Li Yun, et al. Investigation of argon ion sputtering on the secondary electron emission from gold samples[J]. Applied Surface Science, 382, 88-92(2016).

[7] Schaub S C, Shapiro M A, Temkin R J. Measurement of dielectric multipactor thresholds at 110 GHz[J]. Physical Review Letters, 123, 175001(2019).

[8] Berenguer A, Coves Á, Mesa F, et al. Analysis of multipactor effect in a partially dielectric-loaded rectangular waveguide[J]. IEEE Transactions on Plasma Science, 47, 259-265(2019).

[9] Zhang Ziyi, Sun Yanzi, Cui Wanzhao, et al. An analytical model of one-sided multipactor on a dielectric of a metal surface for spacecraft application[J]. IEEE Transactions on Electron Devices, 66, 4921-4927(2019).

[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] González-Iglesias D, Gimeno B, Boria V E, et al. Multipactor effect in a parallel-plate waveguide partially filled with magnetized ferrite[J]. IEEE Transactions on Electron Devices, 61, 2552-2557(2014).

[12] Shalaby M, Peccianti M, Ozturk Y, et al. A magnetic non-reciprocal isolator for broadband terahertz operation[J]. Nature Communications, 4, 1558(2013).

[13] González-Iglesias D, Gómez Á, Gimeno B, et al. Analysis of multipactor RF breakdown in a waveguide containing a transversely magnetized ferrite[J]. IEEE Transactions on Electron Devices, 63, 4939-4947(2016).

[14] Vague J, Melgarejo J C, Boria V E, et al. Experimental validation of multipactor effect for ferrite materials used in L- and S-band nonreciprocal microwave components[J]. IEEE Transactions on Microwave Theory and Techniques, 67, 2151-2161(2019).

[16] Zhai Yonggui, Wang Hongguang, Zhang Lei, et al. Effect of secondary emission yield and initial charge of dielectric material on multipactor in parallel-plate dielectric-loaded waveguide[J]. IEEE Transactions on Electron Devices, 66, 5333-5338(2019).

[18] Aguilera L, Montero I, Olano L, et al. Secondary emission yield at lowprimary energies of magic materials f antimultipact applications[C]Proceedings of the International Wkshop on Multipact, Cona Passive Intermodulation. Valencia, Spain, 2014: S126.

[19] Chen C H, Chang C, Liu W Y, et al. Improving the microwave window breakdown threshold by using a fluorinated, periodically patterned surface[J]. Journal of Applied Physics, 114, 163304(2013).

[20] Ye Ming, He Yongning, Hu Shaoguang, et al. Investigation into anomalous total secondary electron yield for micro-porous Ag surface under oblique incidence conditions[J]. Journal of Applied Physics, 114, 104905(2013).

[22] Li Yun, Ye Ming, He Yongning, et al. Surface effect investigation on multipactor in microwave components using the EM-PIC method[J]. Physics of Plasmas, 24, 113505(2017).

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