Optical synchronization technique for all-optical Compton scattering

In all-optical Compton scattering driven by a multi-petawatt laser, it is critical to have accurate spatiotemporal synchronization between the ultrarelativistic electron bunch and the ultrahigh-intensity laser beam. Such a synchronization was realized by using two complementary optical setups. The f...

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Veröffentlicht in:	Review of scientific instruments 2022-11, Vol.93 (11), p.113001-113001
Hauptverfasser:	Kim, Do Yeon, Hojbota, Calin Ioan, Mirzaie, Mohammad, Lee, Seong Ku, Kim, Ki Yong, Sung, Jae Hee, Nam, Chang Hee
Format:	Artikel
Sprache:	eng
Schlagworte:	Elastic scattering Electron beams Femtosecond pulsed lasers Laser beams Scientific apparatus & instruments Synchronism Time lag Time measurement Ultrahigh intensity lasers
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creator	Kim, Do Yeon Hojbota, Calin Ioan Mirzaie, Mohammad Lee, Seong Ku Kim, Ki Yong Sung, Jae Hee Nam, Chang Hee
description	In all-optical Compton scattering driven by a multi-petawatt laser, it is critical to have accurate spatiotemporal synchronization between the ultrarelativistic electron bunch and the ultrahigh-intensity laser beam. Such a synchronization was realized by using two complementary optical setups. The first setup, used for the initial synchronization, recorded the spatial interferogram between the two femtosecond lasers used for a GeV electron beam production and an ultrahigh scattering laser beam. The second one, consisting of spatial and spectral interferometers, measured the time delay between the two laser beams in the range of 0–200 fs in real time. These monitoring systems played an essential role in conducting Compton scattering experiments.
doi_str_mv	10.1063/5.0115918
format	Article
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subjects	Elastic scattering Electron beams Femtosecond pulsed lasers Laser beams Scientific apparatus & instruments Synchronism Time lag Time measurement Ultrahigh intensity lasers
title	Optical synchronization technique for all-optical Compton scattering
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