Pulsed SC Proton Linac

N.Ouchi; E.Chishiro; C.Tsukishima; K.Mukugi

arXiv:physics/0008199·physics.acc-ph·August 17, 2019·6 cites

Pulsed SC Proton Linac

N.Ouchi, E.Chishiro, C.Tsukishima, K.Mukugi

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TL;DR

This paper introduces a new model for dynamic Lorentz force detuning in superconducting proton linacs, validated experimentally and applied to RF control simulations for high-stability operation in high-intensity accelerators.

Contribution

A novel model for dynamic Lorentz detuning in superconducting proton linacs, with experimental validation and successful application in RF control simulations.

Findings

01

The model accurately describes Lorentz detuning effects.

02

Experimental validation confirms the model's reliability.

03

Application improves RF control stability.

Abstract

The superconducting (SC) proton linac is proposed in the JAERI/KEK Joint Project for a high-intensity proton accelerator in the energy region from 400 to 600 MeV. Highly stable fields in the SC cavities are required under the dynamic Lorentz force detuning. A new model describing the dynamic Lorentz detuning has been developed and the validity has been confirmed experimentally. The model has been applied successfully to the rf control simulation of the SC proton linac.

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Taxonomy

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