33 / 2023-09-25 19:43:30
Optimized Design of a Thermionic Electron Gun Applied to a High-power FEL Injector
injector,electron gun,sub-harmonic buncher,CST STUDIO SUITE,Parmela
Draft Accepted
Xiaoyu Peng / National Synchrotron Radiation Laboratory; University of Science and Technology of China
Tongning Hu / Huazhong University of Science & Technology
Yufei Peng / GUSU Laboratory
Jidong Long / Suzhou Laboratory
Jianjun Deng / Chinese Academy of Engineering Physics
Guangyao Feng / University of Science and Technology of China;National Synchrotron Radiation Laboratory
This paper mainly designs a high-power FEL injector system, which has a low-emittance electron gun using a gridded thermionic cathode. The distance between the anode and the RF cavity exit is designed to be as short as possible in the manufacturing level. In the process of optimizing the electron gun, simulation by CST STUDIO SUITE is mainly conducted on the effects of the shape, hole spacing, wire size, and thickness of the grid on the electron beam’s emittance, particle passing rate and so on. Therefore, the optimal parameters of the electron gun, especially the structure of the grid and the grid bias voltage, are obtained, generating a uniformly distributed current with current intensity of 0.5 A, the pulse length of 1 ns, and a normalized root mean square emittance of 1.6 mm∙mrad. In order to reduce the increase in emittance caused by the space charge effect in the low energy region, a -50 kV electron gun is connected to a 476 MHz sub-harmonic buncher through a drift section with the solenoid. The optimization in Parmela resulted in excellent longitudinal phase space, beam spot size, and emittance of the electron beam at the injector exit.
Important Date
  • Conference Date

    Dec 08

    2023

    to

    Dec 10

    2023

  • Nov 01 2023

    Draft paper submission deadline

  • Dec 10 2023

    Registration deadline

Sponsored By
IEEE IAS
Organized By
Southwest Jiaotong University (SWJTU)