Variation of Argon Impurity Assimilation with Runaway Electron Current in DIII-D

Eric Hollmann; I. Bykov; Richard Moyer; Dmitry Rudakov; Alexis Briesemeister; D. Shiraki; J.L. Herfindal; M.E. Austin; Charles Lasnier; T.N. Carlstrom; N.W. Eidietis; C. Paz-Soldan; M. Van Zeeland

Variation of Argon Impurity Assimilation with Runaway Electron Current in DIII-D

POSTER

Abstract

Measurements of the effect of runaway electron (RE) pressure upon argon impurity assimilation in DIII-D are reported. Intentionally created post-disruption RE beams are ramped to different plasma currents to vary the RE pressure, while impurity levels are varied by injecting argon gas (in addition to Ar already present from the small pellet used to create the disruption). Based on comparisons of current decay rates and hard x-ray, spectroscopic, interferometer, and Thomson scattering data, it is found that argon is not mixed uniformly through the plasma radially but appears to be preferentially moved out of the center of the plasma toward the walls, relative to the main species (deuterium). This exclusion appears to be stronger at higher plasma current, indicating that this force originates from the runaway electrons.

^*Supported by the US DOE under DE-FG02-07ER54917, DE-AC05-00OR22725, DE-FG02-04ER54758, DE-FC02-04ER54698, DE-AC52-07N27344, DE-FG03-95ER54309, and DE-FG02-04ER54762.

Authors

Eric Hollmann
- UCSD
- University of California - San Diego
- Univ of California - San Diego
I. Bykov
- University of California-San Diego
- UCSD
Richard Moyer
- University of California-San Diego
- UCSD
- Univ of California - San Diego
Dmitry Rudakov
- UCSD
- University of California, San Diego
Alexis Briesemeister
- Oak Ridge National Laboratory
- ORNL
D. Shiraki
- ORNL
J.L. Herfindal
- ORNL
M.E. Austin
- IFS, Univ. of Texas, Austin
- U. Texas
- University of Texas at Austin
- UA Texas
Charles Lasnier
- LLNL
T.N. Carlstrom
- GA
N.W. Eidietis
- GA
- General Atomics
C. Paz-Soldan
- General Atomics
- GA
M. Van Zeeland
- GA