Physical Review Special Topics. Accelerators and Beams (Dec 2009)

Observation of wakefields in a beam-driven photonic band gap accelerating structure

  • C. Jing,
  • F. Gao,
  • S. Antipov,
  • Z. Yusof,
  • M. Conde,
  • J. G. Power,
  • P. Xu,
  • S. Zheng,
  • H. Chen,
  • C. Tang,
  • W. Gai

DOI
https://doi.org/10.1103/PhysRevSTAB.12.121302
Journal volume & issue
Vol. 12, no. 12
p. 121302

Abstract

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Wakefield excitation has been experimentally studied in a three-cell X-band standing wave photonic band gap (PBG) accelerating structure. Major monopole (TM_{01}- and TM_{02}-like) and dipole (TM_{11}- and TM_{12}-like) modes were identified and characterized by precisely controlling the position of beam injection. The quality factor Q of the dipole modes was measured to be ∼10 times smaller than that of the accelerating mode. A charge sweep, up to 80 nC, has been performed, equivalent to ∼30 MV/m accelerating field on axis. A variable delay low charge witness bunch following a high charge drive bunch was used to calibrate the gradient in the PBG structure by measuring its maximum energy gain and loss. Experimental results agree well with numerical simulations.