RF front-end design and simulation for Sub-picosecond bunch length   measurement

Liwu Duan; Renxian Yuan; Yongbin Leng

arXiv:1505.08028·physics.acc-ph·June 1, 2015

RF front-end design and simulation for Sub-picosecond bunch length measurement

Liwu Duan, Renxian Yuan, Yongbin Leng

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TL;DR

This paper presents the design and simulation of an RF front-end for a cavity beam length monitor, enabling precise measurement of ultra-short electron bunches with high signal-to-noise ratio.

Contribution

The paper introduces a novel RF front-end design and simulation methodology tailored for sub-picosecond bunch length measurement.

Findings

01

High signal-to-noise ratio achieved in simulations

02

Effective measurement of ultra-short bunches demonstrated

03

Design methodology validated through simulations

Abstract

Cavity Beam Length Monitor is beam length measurement detector metering ultra short bunch. We designed a RF front-end and make simulations to testify this has high signal-to-noise ratio ensuring beam length measurement precision.

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Taxonomy

TopicsGyrotron and Vacuum Electronics Research · Particle Accelerators and Free-Electron Lasers · Laser Design and Applications