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Please use this identifier to cite or link to this item: http://arks.princeton.edu/ark:/88435/dsp015138jh70d
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dc.contributor.authorCole M-
dc.contributor.authorHager R-
dc.contributor.authorMoritaka T-
dc.contributor.authorDominski J-
dc.contributor.authorKleiber R-
dc.contributor.authorKu S-
dc.contributor.authorLazerson S-
dc.contributor.authorRiemann J-
dc.contributor.authorChang C-
dc.date.accessioned2019-08-06T15:29:35Z-
dc.date.available2019-08-06T15:29:35Z-
dc.date.issued2019-08-
dc.identifier.urihttp://arks.princeton.edu/ark:/88435/dsp015138jh70d-
dc.description.abstractXGC (X-point Gyrokinetic Code) is a whole-volume, total-f gyrokinetic particle-in-cell code developed for modelling tokamaks.In recent work, XGC has been extended to model more general 3D toroidal magnetic configurations, such as stellarators.These improvements have resulted in the XGC-S version.In this paper, XGC-S is benchmarked in the reduced delta-f limit for linear electrostatic ion temperature gradient-driven microinstabilities, which can underlie turbulent transport in stellarators.An initial benchmark of XGC-S in tokamak geometry shows good agreement with the XGC1, ORB5, and global GENE codes.A benchmark between XGC-S and the EUTERPE global gyrokinetic code for stellarators has also been performed, this time in geometry of the optimised stellarator Wendelstein 7-X.Good agreement has been found for the mode number spectrum, mode structure, and growth rate.en_US
dc.description.tableofcontentsreadme and digital data filesen_US
dc.language.isoen_USen_US
dc.publisherPrinceton Plasma Physics Laboratory, Princeton Universityen_US
dc.relationPhysics of Plasmasen_US
dc.subjectnullen_US
dc.titleVerification of the global gyrokinetic stellarator code XGC-S for linear ion temperature gradient driven modesen_US
dc.typeDataseten_US
dc.contributor.funderU. S. Department of Energyen_US
Appears in Collections:Theory and Computation

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