Physical Review Special Topics. Accelerators and Beams (Feb 2012)

Characterization of transverse beam emittance of electrons from a laser-plasma wakefield accelerator in the bubble regime using betatron x-ray radiation

  • S. Kneip,
  • C. McGuffey,
  • J. L. Martins,
  • M. S. Bloom,
  • V. Chvykov,
  • F. Dollar,
  • R. Fonseca,
  • S. Jolly,
  • G. Kalintchenko,
  • K. Krushelnick,
  • A. Maksimchuk,
  • S. P. D. Mangles,
  • Z. Najmudin,
  • C. A. J. Palmer,
  • K. Ta Phuoc,
  • W. Schumaker,
  • L. O. Silva,
  • J. Vieira,
  • V. Yanovsky,
  • A. G. R. Thomas

DOI
https://doi.org/10.1103/PhysRevSTAB.15.021302
Journal volume & issue
Vol. 15, no. 2
p. 021302

Abstract

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We propose and use a technique to measure the transverse emittance of a laser-wakefield accelerated beam of relativistic electrons. The technique is based on the simultaneous measurements of the electron beam divergence given by v_{⊥}/v_{∥}, the measured spectrum γ, and the transverse electron bunch size in the bubble r_{⊥}. The latter is obtained via the measurement of the source size of the x rays emitted by the accelerating electron bunch in the bubble. We measure a normalized rms beam transverse emittance <0.5π mm mrad as an upper limit for a spatially Gaussian, spectrally quasimonoenergetic electron beam with 230 MeV energy in agreement with numerical modeling and analytic theory in the bubble regime.