Spectroscopic Measurements of Electron Temperature on the University of Texas at Austin Argon Helicon Experiment

Ella M. Sciamma; Roger D. Bengtson; W.L. Rowan; Amy M. Keesee; Charles A. Lee; Dan Berisford

Spectroscopic Measurements of Electron Temperature on the University of Texas at Austin Argon Helicon Experiment

POSTER

Abstract

Absolutely calibrated spectroscopic measurements of the argon plasma in the helicon experiment at UT were used to estimate the electron temperature in the plasma core under the antenna. The helicon antenna was operated at 13.56 MHz with 1 kW absorbed power. Langmuir probe measurements of the electron density were used in a collisional-radiative model simulation$^{[1]}$ to estimate the electron temperature from argon ion (Ar II) line intensities. An electron temperature of 3.3 eV was obtained, agreeing with the Langmuir probe measurements. Argon neutral (Ar I) lines were then used with a second collisional-radiative model$^{[2]}$ to estimate the neutral density. \newline [1] http://adas.phys.strath.ac.uk \newline [2] Amy. M. Keesee and Earl E. Scime. Rev. Sci. Instrum. 77, 10F304 (2006)

^*Work supported by Ad Astra Rocket Company and the Department Of Energy Office of Fusion Energy Science DE-FG03-00ER54609.

Authors

Ella M. Sciamma
- The University of Texas at Austin
Roger D. Bengtson
- University of Texas at Austin, Physics Department
- The University of Texas at Austin
W.L. Rowan
- Fusion Research Center, University of Texas, Austin, TX, USA
- The University of Texas at Austin, Fusion Research Center
- Fusion Research Center, Univ. of Texas
- FRC UT AUSTIN
- The University of Texas at Austin
Amy M. Keesee
- West Virginia University
Charles A. Lee
- The University of Texas at Austin
Dan Berisford
- Univ of Texas at Austin
- The University of Texas at Austin