Symmetry (Feb 2022)

Advanced Stabilization Methods of Plasma Devices for Plasma-Based Acceleration

  • Mario Galletti,
  • Maria Pia Anania,
  • Sahar Arjmand,
  • Angelo Biagioni,
  • Gemma Costa,
  • Martina Del Giorno,
  • Massimo Ferrario,
  • Valerio Lollo,
  • Riccardo Pompili,
  • Yoav Raz,
  • Vladimir Shpakov,
  • Fabio Villa,
  • Arie Zigler,
  • Alessandro Cianchi

DOI
https://doi.org/10.3390/sym14030450
Journal volume & issue
Vol. 14, no. 3
p. 450

Abstract

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Towards the next generation of compact plasma-based accelerators, useful in several fields, such as basic research, medicine and industrial applications, a great effort is required to control the plasma creation, the necessity of producing a time-jitter free channel, and its stability namely uniformity and reproducibility. In this Letter, we describe an experimental campaign adopting a gas-filled discharge-capillary where the plasma and its generation are stabilized by triggering its ignition with an external laser pulse or an innovative technique based on the primary dark current (DC) in the accelerating structure of a linear accelerator (LINAC). The results show an efficient stabilization of the discharge pulse and plasma density with both pre-ionizing methods turning the plasma device into a symmetrical stable accelerating environment, especially when the external voltage is lowered near the breakdown value of the gas. The development of tens of centimeter long capillaries is enabled and, in turn, longer acceleration lengths can be adopted in a wide range of plasma-based acceleration experiments.

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