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Nonlinear δf particle in cell gyrokinetic simulations of the microtearing mode
Resource type
Authors/contributors
- Chowdhury, J. (Author)
- Chen, Yang (Author)
- Parker, Scott E. (Author)
Title
Nonlinear δf particle in cell gyrokinetic simulations of the microtearing mode
Abstract
Nonlinear simulations are carried out for the microtearing mode using particle-based δf gyrokinetic simulations for parameters relevant to spherical tokamaks. The present study finds that the microtearing mode can generate significant electron heat flux, which is predominantly carried out by the electromagnetic component of the heat flux with a negligible contribution from the electrostatic component. The mode sustains without the electrostatic component. We observe that the electron heat flux increases with the electron temperature gradient. The heat flux exhibits a very weak dependence on the collisions. It increases with electron β initially; however, at very high β, the electron heat flux is reduced.
Publication
Physics of Plasmas
Volume
27
Issue
4
Pages
042309
Date
2020-04-21
Journal Abbr
Physics of Plasmas
ISSN
1070-664X
Accessed
8/29/24, 9:00 AM
Library Catalog
Silverchair
Extra
4 citations (Crossref/DOI) [2024-10-03]
4 citations (Crossref/DOI) [2024-10-02]
Citation
Chowdhury, J., Chen, Y., & Parker, S. E. (2020). Nonlinear δf particle in cell gyrokinetic simulations of the microtearing mode. Physics of Plasmas, 27(4), 042309. https://doi.org/10.1063/1.5141353
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