Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source

Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source

Next-generation light sources based on the multibend achromat concept place great reliance on the accuracy of beam dynamics modeling. To ensure the success of such light sources, confirmation of design performance with at least two independent codes is prudent. The APS Upgrade (APS-U) lattice has be...

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Main Authors: Michael Borland, Yipeng Sun, Xiaobiao Huang
Format: Article
Language:English
Published: American Physical Society 2019-11-01
Series:Physical Review Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevAccelBeams.22.114601
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spelling doaj-56f8b8ed16d5410eb5b95b6a71ff91e62020-11-25T02:13:01ZengAmerican Physical SocietyPhysical Review Accelerators and Beams2469-98882019-11-01221111460110.1103/PhysRevAccelBeams.22.114601Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light sourceMichael BorlandYipeng SunXiaobiao HuangNext-generation light sources based on the multibend achromat concept place great reliance on the accuracy of beam dynamics modeling. To ensure the success of such light sources, confirmation of design performance with at least two independent codes is prudent. The APS Upgrade (APS-U) lattice has been designed using the code elegant, which has existing and new features that are needed by the design. Corresponding, independent improvements have recently been made to the accelerator toolbox (at), in order to permit an independent check of nonlinear dynamics predictions. The new developments include the modeling of combined-function bending magnets with straight geometry and improved fringe field effects of quadrupole magnets. Calculations of linear and nonlinear lattice parameters and particle tracking results were compared, showing remarkable agreement was found between the two independently developed codes. This provides significant confirmation of the feasibility of the APS-U design.http://doi.org/10.1103/PhysRevAccelBeams.22.114601
collection DOAJ
language English
format Article
sources DOAJ
author Michael Borland
Yipeng Sun
Xiaobiao Huang
spellingShingle Michael Borland
Yipeng Sun
Xiaobiao Huang
Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
Physical Review Accelerators and Beams
author_facet Michael Borland
Yipeng Sun
Xiaobiao Huang
author_sort Michael Borland
title Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
title_short Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
title_full Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
title_fullStr Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
title_full_unstemmed Comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
title_sort comprehensive comparison of two tracking codes for single-particle dynamics evaluation of a next-generation storage ring light source
publisher American Physical Society
series Physical Review Accelerators and Beams
issn 2469-9888
publishDate 2019-11-01
description Next-generation light sources based on the multibend achromat concept place great reliance on the accuracy of beam dynamics modeling. To ensure the success of such light sources, confirmation of design performance with at least two independent codes is prudent. The APS Upgrade (APS-U) lattice has been designed using the code elegant, which has existing and new features that are needed by the design. Corresponding, independent improvements have recently been made to the accelerator toolbox (at), in order to permit an independent check of nonlinear dynamics predictions. The new developments include the modeling of combined-function bending magnets with straight geometry and improved fringe field effects of quadrupole magnets. Calculations of linear and nonlinear lattice parameters and particle tracking results were compared, showing remarkable agreement was found between the two independently developed codes. This provides significant confirmation of the feasibility of the APS-U design.
url http://doi.org/10.1103/PhysRevAccelBeams.22.114601
work_keys_str_mv AT michaelborland comprehensivecomparisonoftwotrackingcodesforsingleparticledynamicsevaluationofanextgenerationstorageringlightsource
AT yipengsun comprehensivecomparisonoftwotrackingcodesforsingleparticledynamicsevaluationofanextgenerationstorageringlightsource
AT xiaobiaohuang comprehensivecomparisonoftwotrackingcodesforsingleparticledynamicsevaluationofanextgenerationstorageringlightsource
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