Beam dynamics performance of the proposed PETRA IV storage ring

I. Agapov; S. Antipov; R. Bartolini; R. Brinkmann; Y-C. Chae; E.C.; Cortes-Garcia; D. Einfeld; T. Hellert; M. Huening; M.A. Jebramcik; J. Keil,; C. Li; L. Malina; R. Wanzenberg

arXiv:2408.07995·physics.acc-ph·August 16, 2024

Beam dynamics performance of the proposed PETRA IV storage ring

I. Agapov, S. Antipov, R. Bartolini, R. Brinkmann, Y-C. Chae, E.C., Cortes-Garcia, D. Einfeld, T. Hellert, M. Huening, M.A. Jebramcik, J. Keil,, C. Li, L. Malina, R. Wanzenberg

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TL;DR

This paper discusses the design and beam dynamics performance of the PETRA IV storage ring, an upgraded 6 GeV synchrotron source with low emittance, based on a hybrid six-bend achromat lattice.

Contribution

It introduces a novel lattice design for PETRA IV and evaluates its beam dynamics performance in detail.

Findings

01

Successful design of a low emittance ring with the H6BA lattice

02

Identification of challenges and opportunities in large-size low emittance rings

03

Detailed beam dynamics analysis supporting PETRA IV upgrade

Abstract

The PETRA IV project for upgrading the 2.3 km 6 GeV PETRA III storage ring to a diffraction-limited synchrotron radiation source is nearing the end of its detailed technical design phase. We present the ring lattice based on the hybrid six-bend achromat (H6BA) cell and a detailed evaluation of its beam dynamics performance. Design challenges as well as unique opportunities associated with a low emittance ring of a large size are discussed.

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Taxonomy

TopicsParticle accelerators and beam dynamics · Particle Accelerators and Free-Electron Lasers · Magnetic confinement fusion research