Structural Dynamics (Mar 2024)

Vector-based feedback of continuous wave radiofrequency compression cavity for ultrafast electron diffraction

  • Thomas M. Sutter,
  • Joshua S. H. Lee,
  • Atharva V. Kulkarni,
  • Pietro Musumeci,
  • Anshul Kogar

DOI
https://doi.org/10.1063/4.0000231
Journal volume & issue
Vol. 11, no. 2
pp. 024303 – 024303-10

Abstract

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The temporal resolution of ultrafast electron diffraction at weakly relativistic beam energies ( ≲100 keV) suffers from space-charge induced electron pulse broadening. We describe the implementation of a radio frequency (RF) cavity operating in the continuous wave regime to compress high repetition rate electron bunches from a 40.4 kV DC photoinjector for ultrafast electron diffraction applications. Active stabilization of the RF amplitude and phase through a feedback loop based on the demodulated in-phase and quadrature components of the RF signal is demonstrated. This scheme yields 144 ± 19 fs RMS temporal resolution in pump–probe studies.