Cavity Cooling of the Pure Electron Plasma

POSTER

Abstract

Magnetized electrons in free space emit cyclotron radiation, cooling at the Larmor rate -1/T dT/dt = 0.24 s-1 * B[T] 2 This rate can be enhanced by confining the plasma in a microwave cavity, where the density of EM oscillator states is concentrated at the cavity resonances [A. P. Povilus, PhD thesis: Berkeley 2015]. Here we present data for the cooling of plasmas with 2*106 electrons, held in three different cavities, over a range of magnetic field from 0.15-1.50 T. We explore in detail the cooling enhancement for a variety of magnetic gradient and field-plasma overlap geometries. Optimizing these parameters, we measure the cooling rate and final temperatures achieved for the range 100 < N < 108 plasma electrons.

*This work was supported by the DOE DE-FG02-06ER54904, the NSF 1500538-PHY, and the NSERC.

Presenters

  • Eric D Hunter

    • Univ of California - Berkeley

Authors

  • Eric D Hunter

    • Univ of California - Berkeley

  • Nathan A Evetts

    • Univ of British Columbia

  • Joel Fajans

    • Univ of California - Berkeley

  • Walter N Hardy

    • Univ of British Columbia

  • Huws Landsberger

    • Univ of California - Berkeley

  • Ethan Ward

    • Univ of California - Berkeley

  • Jonathan S Wurtele

    • Univ of California - Berkeley