Impacts of space and dielectric surface charges on evolution of multipactors

Xinbo Wang; Fazhong Shen; Ming Yu; Wanzhao Cui

doi:10.11884/HPLPB202335.220324

[1] Farnsworth P T. Television by electron image scanning[J]. Journal of the Franklin Institute, 218, 411-444(1934).

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

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

[4] 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).

[5] Yu Ming. Power-handling capability for RF filters[J]. IEEE Microwave Magazine, 8, 88-97(2007).

[6] Panariello A, Yu Ming, Ernst C. Ku-band high power dielectric resonator filters[J]. IEEE Transactions on Microwave Theory and Techniques, 61, 382-392(2013).

[7] Li Shuqi, Wang Ying, Yu Ming, et al. Efficient modeling of Ku-band high power dielectric resonator filter with applications of neural networks[J]. IEEE Transactions on Microwave Theory and Techniques, 67, 3427-3435(2019).

[8] 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).

[9] Kishek R A, Lau Y Y. Multipactor discharge on a dielectric[J]. Physical Review Letters, 80, 193-196(1998).

[10] Chang Chao, Liu Guozhi, Tang Chuanxiang, et al. Review of recent theories and experiments for improving high-power microwave window breakdown thresholds[J]. Physics of Plasmas, 18, 055702(2011).

[11] Ang L K, Lau Y Y, Kishek R A, et al. Power deposited on a dielectric by multipactor[J]. IEEE Transactions on Plasma Science, 26, 290-295(1998).

[12] Torregrosa G, Coves A, Vicente C P, et al. Time evolution of an electron discharge in a parallel-plate dielectric-loaded waveguide[J]. IEEE Electron Device Letters, 27, 619-621(2006).

[13] Coves Á, Torregrosa-Penalva G, Vicente C, et al. Multipactor discharges in parallel-plate dielectric-loaded waveguides including space-charge effects[J]. IEEE Transactions on Electron Devices, 55, 2505-2511(2008).

[14] Torregrosa-Penalva G, Coves Á, Martinez B G, et al. Multipactor susceptibility charts of a parallel-plate dielectric-loaded waveguide[J]. IEEE Transactions on Electron Devices, 57, 1160-1166(2010).

[15] Sounas A L, Solla E, Mattes M. Investigation of multipact steady state in parallelplate waveguides loaded by a single dielectric slab[C]8th International Wkshop on Multipact, Cona Passive Intermodulation. 2014.

[16] Sounas A, Solla E, Mattes M. Multipact analysis in parallelplate waveguides loaded by a single dielectric slab[C]. 8th European Conference on Antennas Propagation. 2014: 14691470.

[17] Sounas A. Modeling of longterm multipact evolution in microwave components including dielectric layers[D]. Lausanne: cole Polytechnique Fédérale de Lausanne, 2015.

[18] Zhai Yonggui, Wang Rui, Wang Hongguang, . Multipactor in parallel-plate transmission line partially filled with dielectric material[J]. Acta Physica Sinica, 67, 157901(2018).

[19] Langellotti S V, Jordan N M, Lau Y Y, et al. CST particle studio simulations of coaxial multipactor and comparison with experiments[J]. IEEE Transactions on Plasma Science, 48, 1942-1949(2020).

[20] ECSS2001A2003, Space engineering: multipacting design test[S].

[21] Vaughan J R M. A new formula for secondary emission yield[J]. IEEE Transactions on Electron Devices, 36, 1963-1967(1989).

[22] Vicente C, Mattes M, Wolk D, et al. Multipact breakdown prediction in rectangular waveguide based components[C]. IEEE MTTS International Microwave Symposium Digest, 2005. Long Beach, USA: IEEE, 2005: 10551058.

[23] Anza S, Vicente C, Gimeno B, et al. Long-term multipactor discharge in multicarrier systems[J]. Physics of Plasmas, 14, 082112(2007).