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Main Authors: Chambliss, Amelia, Paul, Elizabeth, Hudson, Stuart
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.04289
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author Chambliss, Amelia
Paul, Elizabeth
Hudson, Stuart
author_facet Chambliss, Amelia
Paul, Elizabeth
Hudson, Stuart
contents Even if the magnetic field in a stellarator is integrable, phase-space integrability for energetic particle guiding center trajectories is not guaranteed. Both trapped and passing particle trajectories can experience convective losses, caused by wide phase-space island formation, and diffusive losses, caused by phase-space island overlap. By locating trajectories that are closed in the angle coordinate but not necessarily closed in the radial coordinate, we can quantify the magnitude of the perturbation that results in island formation. We characterize island width and island overlap in quasihelical (QH) and quasiaxisymmetric (QA) finite-beta equilibria for both trapped and passing energetic particles. For trapped particles in QH, low-shear toroidal precession frequency profiles near zero result in wide island formation. While QA transit frequencies do not cross through the zero resonance, we observe that island overlap is more likely since higher shear results in the crossing of more low-order resonances.
format Preprint
id arxiv_https___arxiv_org_abs_2411_04289
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fast particle trajectories and integrability in quasiaxisymmetric and quasihelical stellarators
Chambliss, Amelia
Paul, Elizabeth
Hudson, Stuart
Plasma Physics
Even if the magnetic field in a stellarator is integrable, phase-space integrability for energetic particle guiding center trajectories is not guaranteed. Both trapped and passing particle trajectories can experience convective losses, caused by wide phase-space island formation, and diffusive losses, caused by phase-space island overlap. By locating trajectories that are closed in the angle coordinate but not necessarily closed in the radial coordinate, we can quantify the magnitude of the perturbation that results in island formation. We characterize island width and island overlap in quasihelical (QH) and quasiaxisymmetric (QA) finite-beta equilibria for both trapped and passing energetic particles. For trapped particles in QH, low-shear toroidal precession frequency profiles near zero result in wide island formation. While QA transit frequencies do not cross through the zero resonance, we observe that island overlap is more likely since higher shear results in the crossing of more low-order resonances.
title Fast particle trajectories and integrability in quasiaxisymmetric and quasihelical stellarators
topic Plasma Physics
url https://arxiv.org/abs/2411.04289