Acta Polytechnica (Jun 2015)

EXPERIMENTAL CHARACTERIZATION OF AN OVERDENSE PLASMA IN A COMPACT ION SOURCE

  • Giuseppe Castro,
  • David Mascali,
  • Francesco Paolo Romano,
  • Carmen Altana,
  • Claudia Caliri,
  • Luigi Celona,
  • Rossella Di Giugno,
  • Nadia Gambino,
  • Davide Lanaia,
  • Rosalba Miracoli,
  • Agatino Musumarra,
  • Lorenzo Neri,
  • Giuseppe Torrisi,
  • Santo Gammino

DOI
https://doi.org/10.14311/AP.2015.55.0146
Journal volume & issue
Vol. 55, no. 3
pp. 146 – 149

Abstract

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Electron Cyclotron Resonance Ion Sources (ECRIS) are compact plasma-based machines able to feed particle accelerators with high intensity beams of multi-charged ions. ECRIS plasmas are density-limited, since they are sustained by E.M. wave propagation up to a cut-off density value. In the past, the only way to improve ECRIS performance was to increase the microwave frequency and the magnetic field strength to satisfy the ECR condition. A different plasma heating mechanism is being applied at INFN-LNS. It is based on Electron Bernstein Waves (EBW), i.e., electrostatic waves which do not suffer any density cut-off. Highlights concerning preliminary signatures of EBW formation and subsequent absorption are given here.

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