Simulations to study the static polarization limit for RHIC lattice with   the Polymorphic Tracking Code

Zhe Duan; Qing Qin

arXiv:1504.06854·physics.acc-ph·April 28, 2015

Simulations to study the static polarization limit for RHIC lattice with the Polymorphic Tracking Code

Zhe Duan, Qing Qin

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TL;DR

This paper uses simulations with the Polymorphic Tracking Code to investigate how different beam parameters and lattice configurations affect the static polarization limit in RHIC.

Contribution

It provides new insights into spin dynamics and polarization limits through detailed simulation analysis of RHIC lattice configurations.

Findings

01

Dependence of polarization limit on beam parameters

02

Impact of lattice settings on spin stability

03

Simulation results guiding polarization optimization

Abstract

We report a study of spin dynamics based on simulations with the Polymorphic Tracking Code (PTC), exploring the dependence of the static polarization limit on various beam parameters and lattice settings for a practical RHIC lattice.

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Taxonomy

TopicsPhysics of Superconductivity and Magnetism · Semiconductor Quantum Structures and Devices · Cold Atom Physics and Bose-Einstein Condensates