Zero-Dimensional Model to Study the Effectiveness of Plasma Heating and Thermal Energy Confinement in Globus-M Tokamak in Ohmic Heating Modes
Abstract
Experimental study of thermal energy confinement in magnetic confinement devices is one of the fundamental problems in plasma physics. The data processing technique covering kinetic and magnetic measurements performed for the Globus-M tokamak is described. A zero-dimensional code has been developed on the basis of this approach making it possible to calculate important discharge parameters during the experiment (between discharges): the electron and ion stored thermal energy content, plasma effective charge, and confinement time. Good agreement of the zero-dimensional calculations and ASTRA modeling indicates that this approach can be applied for routine data processing in Globus-M in view of the specifics of the device.
- Publication:
-
Physics of Atomic Nuclei
- Pub Date:
- December 2017
- DOI:
- 10.1134/S1063778817070079
- Bibcode:
- 2017PAN....80.1313K
- Keywords:
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- high temperature plasma;
- spherical tokamak;
- confinement;
- plasma diagnostics