Metamaterial-Inspired Interaction Structure for MW-Level Klystron at 714 MHz
Xuanming Zhang, Shaozhe Wang, Jianjun Zou, Xin Wang, Yurong Liu, Yongming Li, Zhanliang Wang, Huarong Gong, Yubin Gong, Zhaoyun Duan
Abstract
A metamaterial (MTM)-inspired interaction structure for MW-level klystron at 714 MHz is proposed. The electromagnetic characteristics of MTM-inspired resonant cavities with single-bridge complementary electric split ring resonators (CeSRRs) are studied, and the cold-tested results confirm the feasibility of miniaturizing the resonant cavity. Furthermore, the beam–wave interaction simulation for the interaction structure constructed by MTM-inspired resonant cavities with single-bridge CeSRRs is carried out, demonstrating 2.28 MW of output power at 714 MHz for a 100 kV, 40 A electron beam. The radius and length of the MTM-inspired interaction structure are 1/2 and 2/3 of the conventional counterparts, respectively. The promising performance makes it attractive for future applications such as linacs.