Reconstruction of fusion plasma state with a Plasma Debugger

M. Dikovsky; E. A. Baltz; Y. Carmon; R. Koningstein; I. Langmore; T. Madams; P. C. Norgaard; J. Platt; J. Romero; M.C. C. Thompson; E. Trask; E. Granstedt; H. Gota; R. Mendoza

Reconstruction of fusion plasma state with a Plasma Debugger

ORAL

Abstract

We built a "Plasma Debugger", a tool to reconstruct the state of the FRC plasma in the TAE Technologies' experimental machine C-2W. This generalized Bayesian inference approach combines data from magnetic sensors, fast cameras, FIR interferometer, Thomson Scattering system, Bremsstrahlung measurements and neutral beams shine-through SEE detectors. It then reconstructs electron density, temperature and bulk plasma currents, with confidence intervals. Computation takes hundreds of CPUs and is performed in the cloud, with results showing up in the plasma machine control room within several minutes of the experiment. The display shows time evolution of the basic plasma properties, giving machine operators additional insight into the plasma behavior.

Nov. 5, 2018, 12:30 PM – Nov. 5, 2018, 12:55 PM

Presenters

M. Dikovsky

Google, LLC, Google Inc.

Authors

M. Dikovsky

Google, LLC, Google Inc.
E. A. Baltz

Google, LLC, Google, Google Inc.
Y. Carmon

Google Inc.
R. Koningstein

Google Inc.
I. Langmore

Google, LLC, Google Inc.
T. Madams

Google, LLC, Google Inc.
P. C. Norgaard

Google, LLC, Google Inc.
J. Platt

Google Inc.
J. Romero

TAE Technologies Inc., TAE Technologies, Inc, TAE Technologies
M.C. C. Thompson

TAE Technologies, Inc., TAE Technologies
E. Trask

TAE Technologies
E. Granstedt

TAE Technologies
H. Gota

TAE Technologies, Inc., TAE Technologies & the Google/TAE TEAM, Tri Alpha Energy, TAE Technologies
R. Mendoza

TAE Technologies