Impact of a minority relativistic electron tail interacting with a thermal plasma containing high-atomic-number impurities

Impact of a minority relativistic electron tail interacting with a thermal plasma containing high-atomic-number impurities

A minority relativistic electron component can arise in both laboratory and naturally-occurring plasmas. In the presence of high-atomic-number ion species, the ion charge state distribution at low bulk electron temperature can be dominated by relativistic electrons, even though their density is orde...

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Veröffentlicht in:Physics of plasmas 2020-04, Vol.27 (4)
Hauptverfasser: Garland, Nathan Ashley, Chung, H. K., Fontes, Christopher John, Zammit, Mark Christian, Colgan, James Patrick, Elder, Todd Michael, McDevitt, Christopher Joseph, Wildey, Timothy M, Tang, Xianzhu
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
Atomic and molecular collisions
Magnetic Fusion Energy
Plasma impurities
Relativistic scattering theory
Runaway electrons
Tokamaks
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Zusammenfassung:A minority relativistic electron component can arise in both laboratory and naturally-occurring plasmas. In the presence of high-atomic-number ion species, the ion charge state distribution at low bulk electron temperature can be dominated by relativistic electrons, even though their density is orders of magnitude lower. This is due to the relativistic enhancement of the collisional excitation and ionization cross sections. The resulting charge state effect can dramatically impact the radiative power loss rate and the related Bethe stopping power of relativistic electrons in a dilute plasma.
ISSN:1070-664X
1089-7674