Dual-cavity beam arrival time monitor design for the Shanghai soft X-ray FEL facility

Free electron lasers provide high-power and ultrashort pulses with extreme brightness. In order to improve a facility’s capabilities and explore the possibility of performing high-resolution time-resolved experiments, a beam arrival time resolution under 100 fs is required. In this article, a novel...

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Published in:Nuclear science and techniques 2019-05, Vol.30 (5), p.14-21, Article 72
Main Authors: Cao, Shan-Shan, Yuan, Ren-Xian, Chen, Jian, Leng, Yong-Bin
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Language:English
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Energy
Hadrons
Heavy Ions
Nuclear Energy
Nuclear Physics
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description Free electron lasers provide high-power and ultrashort pulses with extreme brightness. In order to improve a facility’s capabilities and explore the possibility of performing high-resolution time-resolved experiments, a beam arrival time resolution under 100 fs is required. In this article, a novel beam arrival time monitor (BAM) equipped with two cavities has been designed and a beam flight time measurement scheme based on the BAM prototype has been proposed to estimate phase jitter in the signal measurement system. The two BAM cavities work at different frequencies and the frequency difference is designed to be 35 MHz. Therefore, a self-mixing intermediate frequency signal can be generated using the two cavities. The measured beam flight time shows a temporal deviation of 37 fs (rms).
doi_str_mv 10.1007/s41365-019-0593-3
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subjects Energy
Hadrons
Heavy Ions
Nuclear Energy
Nuclear Physics
title Dual-cavity beam arrival time monitor design for the Shanghai soft X-ray FEL facility
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