Research of coherent edge radiation generated by electron beams oscillating free-electron lasers

We have studied far-infrared coherent radiation with S-band linacs at Laboratory for Electron Beam Re-search and Application (LEBRA) at Nihon University and at Kyoto University Free Electron Laser. We have already developed a couple of terahertz-wave sources based on coherent synchrotron radiation a...

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Bibliographic Details
Published in:Journal of physics. Conference series 2019-11, Vol.1350 (1), p.12039
Main Authors: Sei, N, Ogawa, H, Tanaka, T, Hayakawa, Y, Sakai, T, Sumitomo, Y, Takahashi, Y, Hayakawa, K, Nogami, K, Zen, H, Ohgaki, H
Format: Article
Language:English
Subjects:
Coherent radiation
Electron beams
Far infrared radiation
Free electron lasers
Magnets
Physics
Radiation
Synchrotron radiation
Synchrotrons
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Summary:We have studied far-infrared coherent radiation with S-band linacs at Laboratory for Electron Beam Re-search and Application (LEBRA) at Nihon University and at Kyoto University Free Electron Laser. We have already developed a couple of terahertz-wave sources based on coherent synchrotron radiation and coherent transition radiation, which have been applied to spectroscopic research. Moreover, we developed coherent edge radiation (CER) at the downstream bending magnets in the FEL sections. Because the edge radiation has an annular shape distribution characterized by the asymmetric first-order Laguerre-Gaussian mode, the CER can be extracted from an optical cavity of the FEL system without a diffraction loss of the FEL beam. The root-mean-squared bunch length of the electron beam was evaluated by measuring the CER spectra, which was about the same level as the FEL micropulse width. Although the infrared FELs at LEBRA had a long slippage length, the FEL energy became higher as the bunch length was shorter. The CER intensity can be a guidepost enhancing the FEL power because of the existence of their correlation.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1350/1/012039