Spatiotemporal analysis of the runaway distribution function from synchrotron images in an ASDEX Upgrade disruption

Hoppe, M.; Hesslow, L.; Embreus, O.; Unnerfelt, L.; Papp, G.; Pusztai, I.; Fülöp, T.; Lexell, O.; Lunt, T.; Tomešová, Eva; McCarthy, P.J.; Pautasso, G.; Pokol, G.I.; Por, G.; Svensson, P.

doi:https://dx.doi.org/10.1017/S002237782000152X

Number of the records: 1

Spatiotemporal analysis of the runaway distribution function from synchrotron images in an ASDEX Upgrade disruption

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SYSNO ASEP	0543173
Document Type	J - Journal Article
R&D Document Type	Journal Article
Subsidiary J	Článek ve WOS
Title	Spatiotemporal analysis of the runaway distribution function from synchrotron images in an ASDEX Upgrade disruption
Author(s)	Hoppe, M. (SE) Hesslow, L. (SE) Embreus, O. (SE) Unnerfelt, L. (SE) Papp, G. (DE) Pusztai, I. (SE) Fülöp, T. (SE) Lexell, O. (SE) Lunt, T. (DE) Tomešová, Eva (UFP-V)_ORCID McCarthy, P.J. (IE) Pautasso, G. (DE) Pokol, G.I. (HU) Por, G. (HU) Svensson, P. (SE)
Number of authors	15
Article number	855870102
Source Title	Journal of Plasma Physics. - : Cambridge University Press - ISSN 0022-3778 Roč. 87, č. 1 (2020)
Number of pages	25 s.
Language	eng - English
Country	US - United States
Keywords	fusion plasma ; runaway electrons
Subject RIV	BL - Plasma and Gas Discharge Physics
OECD category	Fluids and plasma physics (including surface physics)
Method of publishing	Open access
Institutional support	UFP-V - RVO:61389021
UT WOS	000609440100001
EID SCOPUS	85092326223
DOI	https://doi.org/10.1017/S002237782000152X
Annotation	Synchrotron radiation images from runaway electrons (REs) in an ASDEX Upgrade discharge disrupted by argon injection are analysed using the synchrotron diagnostic tool Soft and coupled fluid-kinetic simulations. We show that the evolution of the runaway distribution is well described by an initial hot-tail seed population, which is accelerated to energies between 25-50 MeV during the current quench, together with an avalanche runaway tail which has an exponentially decreasing energy spectrum. We find that, although the avalanche component carries the vast majority of the current, it is the high-energy seed remnant that dominates synchrotron emission. With insights from the fluid-kinetic simulations, an analytic model for the evolution of the runaway seed component is developed and used to reconstruct the radial density profile of the RE beam. The analysis shows that the observed change of the synchrotron pattern from circular to crescent shape is caused by a rapid redistribution of the radial profile of the runaway density.
Workplace	Institute of Plasma Physics
Contact	Vladimíra Kebza, kebza@ipp.cas.cz, Tel.: 266 052 975
Year of Publishing	2022
Electronic address	https://www.cambridge.org/core/services/aop-cambridge-core/content/view/D6EB3D8C8555EE96017FAA5A10705254/S002237782000152Xa.pdf

Number of the records: 1