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Longitudinal phase space characterization of the blow-out regime of rf photoinjector operation

Physical Review Special Topics - Accelerators and Beams (2009) 12(7)
DOI: 10.1103/PhysRevSTAB.12.070704
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Abstract

Using an experimental scheme based on a vertically deflecting rf deflector and a horizontally dispersing dipole, we characterize the longitudinal phase space of the beam in the blow-out regime at the UCLA Pegasus rf photoinjector. Because of the achievement of unprecedented resolution both in time (50fs) and energy (1.0keV), we are able to demonstrate some important properties of the beams created in this regime such as extremely low longitudinal emittance, large temporal energy chirp, and the degrading effects of the cathode image charge in the longitudinal phase space which eventually leads to poorer beam quality. All of these results have been found in good agreement with simulations. © 2009 The American Physical Society.

Figures

  • FIG. 1. Top down view of the Pegasus LPS measurement beam line section. The beam is sliced, focused, deflected, dispersed, and finally imaged.
  • FIG. 2. (Color) A study of the Panofsky-Wenzel theorem in the deflecting cavity. The normalized energy spread is plotted versus the deflecting voltages for a given transverse spot size in the cavity shown as points are compared to the analytical result of a deflecting kick shown by lines.
  • FIG. 3. (Color) Single shot LPS measurement compared with simulation. The filtered image data (shown on the left) has time on the vertical axis and the energy on the horizontal axis. The right figure shows the simulated results of the LPS by general particle tracer.
  • TABLE I. LPS parameter comparison.
  • FIG. 4. (Color) The measured and simulated 50 fs slice energy spread along the bunch. The energy resolution of the measurement is limited to 1 keV.
  • FIG. 5. (Color) A scan of the chirp (C) (left axis, black) and t (right axis, red) versus rf gun phase. The measured values (points) are compared to simulations performed with general particle tracer. The scan was performed with a 20 pC electron beam with an initial spot size at the cathode, l of 400 m.
  • FIG. 6. (Color) A scan of the chirp (C) (left axis, black) and t (right axis, red) versus beam charge. The measured values (points) are compared to simulations performed with general particle tracer (lines). The scan was performed with 0 ¼ 22 degrees and an initial spot size at the cathode, l ¼ 500 m.
  • FIG. 7. (Color) A scan of the chirp (C) (left axis, black) and t (right axis, red) versus l. The measured values (points) are compared to GPT simulations. The scan was performed with 20 pC of charge and an rf gun phase of 0 ¼ 22 degrees.

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CITATION STYLE

APA

Moody, J. T., Musumeci, P., Gutierrez, M. S., Rosenzweig, J. B., & Scoby, C. M. (2009). Longitudinal phase space characterization of the blow-out regime of rf photoinjector operation. Physical Review Special Topics - Accelerators and Beams, 12(7). https://doi.org/10.1103/PhysRevSTAB.12.070704

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