[2] Liao Chengen. Fundamentals of microwave technology[M]. Xi’an: Xidian University Press, 1994: 270271
[4] Li Yuankai. The research of water load power meter with waveguide structure[D]. Chengdu: University of Electronic Science Technology of China, 2014: 12
[5] Chen Liang. Development of high power 6.518.0 GHz double ridge waveguide water load. Chengdu: University of Electronic Science Technology of China, 2008, 1216
[6] Eves E, Yakovlev V. Analysis of operational regimes of a high power water load[J]. Journal of Microwave Power and Electromagnetic Energy, 37, 127-144(2002).
[7] Liu Liang, Liu Fukun, Shan Jiafang, et al. Design of a new water load for S-band 750 kW continuous wave high power klystron used in EAST tokamak[J]. Plasma Science and Technology, 9, 223-226(2007).
[8] Koert P, Macgibbon P, Beck W, et al. High power water load f lower hybrid current drive at 4.6 GHz on Alcat CMod[C]IEEE 22nd Symposium on Fusion Engineering. 2007.
[9] Krasnykh A , Maxwell T , Sheppard J , et al. Overview of high power vacuum dry RF load designs[C]Proceeding of the 7th International Particle Accelerat Conference. 2016: 504506
[11] Kuzikov S V, Rodin Y V, Vikharev A A. X-band high power loads[J]. Electromagnetic Waves and Electronic Systems, 22, 69-74(2017).
[12] Riddone G , Wuensch W, Matsumoto S, et al. High power evaluation of Xb high power loads[C]Proceeding of Linear Accelerat Conference LINAC. 2010: 226228
[13] Meng Xiangcong, Shi Jiaru, Zha Hao, et al. Development of high-power S-band load[J]. Nuclear Inst and Methods in Physics Research, A, 927, 209-213(2019).