The Primary Design of the Ridgetron

Li Jinhai; Li Chunguang

arXiv:1605.08489·physics.acc-ph·May 30, 2016

The Primary Design of the Ridgetron

Li Jinhai, Li Chunguang

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TL;DR

This paper presents the design optimization and thermal analysis of the Ridgetron, an electron irradiation device, using electromagnetic simulations, parameter sweeping, and beam dynamics to improve performance.

Contribution

It introduces a novel design approach for the Ridgetron, optimizing the shunt impedance and incorporating thermal management through water cooling.

Findings

01

Increased shunt impedance by removing the extend electrode.

02

Optimized cavity parameters via PSCV method.

03

Validated thermal performance with water cooling system.

Abstract

The ridgetron is used to accelerate the intense beam for the electron irradiation. According to the electromagnetic field simulation, the extend electrode should be cancelled to increase the shunt impedence. The method of parameter sweeping with constraint variables (PSCV) is used to scan the mechanical parameters of the cavity to optimize the shunt impedence. The thermal analysis also has been done for water cooling. The beam dynamic simulation has been done at last.

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Taxonomy

TopicsParticle accelerators and beam dynamics · Gyrotron and Vacuum Electronics Research · Particle Accelerators and Free-Electron Lasers