Experimental observation and investigation of the prewave zone effect in optical diffraction radiation

Experimental observation and investigation of the prewave zone effect in optical diffraction radiation

Transition radiation (TR) and diffraction radiation (DR) has widely been used for both electron beam diagnostics and generation of intense radiation beams in the millimeter and the submillimeter wavelength range. Recently, it was theoretically predicted that TR and DR properties change either at ext...

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Main Authors: P. Karataev, S. Araki, A. Aryshev, G. Naumenko, A. Potylitsyn, N. Terunuma, J. Urakawa
Format: Article
Language:English
Published: American Physical Society 2008-03-01
Series:Physical Review Special Topics. Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevSTAB.11.032804
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spelling doaj-30771968ebe64496847c1b93be0e3bda2020-11-25T01:37:49ZengAmerican Physical SocietyPhysical Review Special Topics. Accelerators and Beams1098-44022008-03-0111303280410.1103/PhysRevSTAB.11.032804Experimental observation and investigation of the prewave zone effect in optical diffraction radiationP. KarataevS. ArakiA. AryshevG. NaumenkoA. PotylitsynN. TerunumaJ. UrakawaTransition radiation (TR) and diffraction radiation (DR) has widely been used for both electron beam diagnostics and generation of intense radiation beams in the millimeter and the submillimeter wavelength range. Recently, it was theoretically predicted that TR and DR properties change either at extremely high energies of electrons or at long radiation wavelengths. This phenomenon was called a prewave zone effect. We have performed the first observation and detailed investigation of the prewave zone effect in optical diffraction radiation at 1.28 GeV electron beam at the KEK-Accelerator Test Facility (KEK-ATF). The beam energy at KEK-ATF is definitely not the highest one achieved in the world. Since we could easily observe the effect, at higher energies it might cause serious problems. We developed and applied a method for prewave zone suppression valid for optical wavelengths. Furthermore, a method for prewave zone suppression applicable for longer radiation wavelengths is discussed.http://doi.org/10.1103/PhysRevSTAB.11.032804
collection DOAJ
language English
format Article
sources DOAJ
author P. Karataev
S. Araki
A. Aryshev
G. Naumenko
A. Potylitsyn
N. Terunuma
J. Urakawa
spellingShingle P. Karataev
S. Araki
A. Aryshev
G. Naumenko
A. Potylitsyn
N. Terunuma
J. Urakawa
Experimental observation and investigation of the prewave zone effect in optical diffraction radiation
Physical Review Special Topics. Accelerators and Beams
author_facet P. Karataev
S. Araki
A. Aryshev
G. Naumenko
A. Potylitsyn
N. Terunuma
J. Urakawa
author_sort P. Karataev
title Experimental observation and investigation of the prewave zone effect in optical diffraction radiation
title_short Experimental observation and investigation of the prewave zone effect in optical diffraction radiation
title_full Experimental observation and investigation of the prewave zone effect in optical diffraction radiation
title_fullStr Experimental observation and investigation of the prewave zone effect in optical diffraction radiation
title_full_unstemmed Experimental observation and investigation of the prewave zone effect in optical diffraction radiation
title_sort experimental observation and investigation of the prewave zone effect in optical diffraction radiation
publisher American Physical Society
series Physical Review Special Topics. Accelerators and Beams
issn 1098-4402
publishDate 2008-03-01
description Transition radiation (TR) and diffraction radiation (DR) has widely been used for both electron beam diagnostics and generation of intense radiation beams in the millimeter and the submillimeter wavelength range. Recently, it was theoretically predicted that TR and DR properties change either at extremely high energies of electrons or at long radiation wavelengths. This phenomenon was called a prewave zone effect. We have performed the first observation and detailed investigation of the prewave zone effect in optical diffraction radiation at 1.28 GeV electron beam at the KEK-Accelerator Test Facility (KEK-ATF). The beam energy at KEK-ATF is definitely not the highest one achieved in the world. Since we could easily observe the effect, at higher energies it might cause serious problems. We developed and applied a method for prewave zone suppression valid for optical wavelengths. Furthermore, a method for prewave zone suppression applicable for longer radiation wavelengths is discussed.
url http://doi.org/10.1103/PhysRevSTAB.11.032804
work_keys_str_mv AT pkarataev experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
AT saraki experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
AT aaryshev experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
AT gnaumenko experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
AT apotylitsyn experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
AT nterunuma experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
AT jurakawa experimentalobservationandinvestigationoftheprewavezoneeffectinopticaldiffractionradiation
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