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Autori principali: Groening, Lars, Chung, Moses
Natura: Preprint
Pubblicazione: 2018
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Accesso online:https://arxiv.org/abs/1808.01218
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author Groening, Lars
Chung, Moses
author_facet Groening, Lars
Chung, Moses
contents Particle beams provided by accelerators occupy a finite volume of the four dimensional transverse phase space. The latter is spanned by the four degrees of freedom, i.e., horizontal/vertical position and momentum. This volume is referred to as emittance. Horizontal and vertical emittances are obtained through projections onto the two transverse sub-phase spaces. Eigen-emittances are obtained from the latter by removing all horizontal-vertical correlations through an appropriate beam optics section. Canonical vorticity flux is used for instance for modelling dynamics of tubes formed by magnetic field lines and particle currents embedded into plasmas. This report is on the relation of eigen-emittances and canonical vorticity flux. Change of beam eigen-emittances is equivalent to change of beam canonical vorticity flux.
format Preprint
id arxiv_https___arxiv_org_abs_1808_01218
institution arXiv
publishDate 2018
record_format arxiv
spellingShingle Relation between particle beam eigen-emittances and canonical vorticity flux
Groening, Lars
Chung, Moses
Accelerator Physics
Plasma Physics
Particle beams provided by accelerators occupy a finite volume of the four dimensional transverse phase space. The latter is spanned by the four degrees of freedom, i.e., horizontal/vertical position and momentum. This volume is referred to as emittance. Horizontal and vertical emittances are obtained through projections onto the two transverse sub-phase spaces. Eigen-emittances are obtained from the latter by removing all horizontal-vertical correlations through an appropriate beam optics section. Canonical vorticity flux is used for instance for modelling dynamics of tubes formed by magnetic field lines and particle currents embedded into plasmas. This report is on the relation of eigen-emittances and canonical vorticity flux. Change of beam eigen-emittances is equivalent to change of beam canonical vorticity flux.
title Relation between particle beam eigen-emittances and canonical vorticity flux
topic Accelerator Physics
Plasma Physics
url https://arxiv.org/abs/1808.01218