Applied Sciences (Feb 2023)

One-Body Capillary Plasma Source for Plasma Accelerator Research at e-LABs

  • Sihyeon Lee,
  • Seong-hoon Kwon,
  • Inhyuk Nam,
  • Myung-Hoon Cho,
  • Dogeun Jang,
  • Hyyong Suk,
  • Minseok Kim

DOI
https://doi.org/10.3390/app13042564
Journal volume & issue
Vol. 13, no. 4
p. 2564

Abstract

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We report on the development of a compact, gas-filled capillary plasma source for plasma accelerator applications. The one-body sapphire capillary was created through a diamond machining technique, which enabled a straightforward and efficient manufacturing process. The effectiveness of the capillary as a plasma acceleration source was investigated through laser wakefield acceleration experiments with a helium-filled gas cell, resulting in the production of stable electron beams of 200 MeV. Discharge capillary plasma was generated using a pulsed, high-voltage system for potential use as an active plasma lens. A peak current of 140 A, corresponding to a focusing gradient of 97 T/m, was observed at a voltage of 10 kV. These results demonstrate the potential utility of the developed capillary plasma source in plasma accelerator research using electron beams from a photocathode gun.

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