Home > Publications database > Production of proton beams with narrow-band energy spectra from laser-irradiated ultrathin foils > print

001     56450
005     20230217124347.0
024 7 _ |a 10.1103/PhysRevE.75.015401
|2 DOI
024 7 _ |a WOS:000243893700005
|2 WOS
024 7 _ |a 2128/9248
|2 Handle
037 _ _ |a PreJuSER-56450
041 _ _ |a eng
082 _ _ |a 530
084 _ _ |2 WoS
|a Physics, Fluids & Plasmas
084 _ _ |2 WoS
|a Physics, Mathematical
100 1 _ |a Robinson, A. P. L.
|b 0
|0 P:(DE-HGF)0
245 _ _ |a Production of proton beams with narrow-band energy spectra from laser-irradiated ultrathin foils
260 _ _ |a College Park, Md.
|b APS
|c 2007
264 _ 1 |3 online
|2 Crossref
|b American Physical Society (APS)
|c 2007-01-11
264 _ 1 |3 print
|2 Crossref
|b American Physical Society (APS)
|c 2007-01-01
300 _ _ |a 015401
336 7 _ |a Journal Article
|0 PUB:(DE-HGF)16
|2 PUB:(DE-HGF)
336 7 _ |a Output Types/Journal article
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336 7 _ |a Journal Article
|0 0
|2 EndNote
336 7 _ |a ARTICLE
|2 BibTeX
336 7 _ |a JOURNAL_ARTICLE
|2 ORCID
336 7 _ |a article
|2 DRIVER
440 _ 0 |a Physical Review E
|x 1539-3755
|0 4924
|v 75
500 _ _ |a Record converted from VDB: 12.11.2012
520 _ _ |a Three-dimensional gridless particle simulations of proton acceleration via irradiation of a very thin foil by a short-pulse, high-intensity laser have been performed to evaluate recently proposed microstructured target configurations. It is found that a pure proton microdot target does not by itself result in a quasimonoenergetic proton beam. Such a beam can only be produced with a very lightly doped target, in qualitative agreement with one-dimensional theory. The simulations suggest that beam quality in current experiments could be dramatically improved by choosing microdot compositions with a 5-10 times lower proton fraction.
536 _ _ |a Scientific Computing
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542 _ _ |i 2007-01-11
|2 Crossref
|u http://link.aps.org/licenses/aps-default-license
588 _ _ |a Dataset connected to Web of Science
650 _ 7 |a J
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700 1 _ |a Gibbon, P.
|b 1
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|0 P:(DE-Juel1)132115
773 1 8 |a 10.1103/physreve.75.015401
|b American Physical Society (APS)
|d 2007-01-11
|n 1
|p 015401
|3 journal-article
|2 Crossref
|t Physical Review E
|v 75
|y 2007
|x 1539-3755
773 _ _ |a 10.1103/PhysRevE.75.015401
|g Vol. 75, p. 015401
|p 015401
|n 1
|q 75<015401
|0 PERI:(DE-600)2844562-4
|t Physical review / E
|v 75
|y 2007
|x 1539-3755
856 7 _ |u http://dx.doi.org/10.1103/PhysRevE.75.015401
856 4 _ |u https://juser.fz-juelich.de/record/56450/files/PhysRevE.75.015401.pdf
|y OpenAccess
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856 4 _ |u https://juser.fz-juelich.de/record/56450/files/PhysRevE.75.015401.jpg?subformat=icon-700
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856 4 _ |u https://juser.fz-juelich.de/record/56450/files/PhysRevE.75.015401.pdf?subformat=pdfa
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913 1 _ |k P41
|v Scientific Computing
|l Supercomputing
|b Schlüsseltechnologien
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914 1 _ |y 2007
915 _ _ |a JCR/ISI refereed
|0 StatID:(DE-HGF)0010
915 _ _ |a OpenAccess
|0 StatID:(DE-HGF)0510
|2 StatID
915 _ _ |a American Physical Society Transfer of Copyright Agreement
|0 LIC:(DE-HGF)APS-112012
|2 HGFVOC
920 1 _ |k ZAM
|l Zentralinstitut für Angewandte Mathematik
|d 31.12.2007
|g ZAM
|0 I:(DE-Juel1)VDB62
|x 0
970 _ _ |a VDB:(DE-Juel1)88587
980 _ _ |a VDB
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980 _ _ |a journal
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980 _ _ |a UNRESTRICTED
980 1 _ |a FullTexts
981 _ _ |a I:(DE-Juel1)JSC-20090406
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999 C 5 |a 10.1103/PhysRevLett.89.175003
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999 C 5 |a 10.1103/PhysRevLett.90.185002
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999 C 5 |a 10.1103/PhysRevLett.96.145006
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999 C 5 |a 10.1063/1.2220011
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999 C 5 |a 10.1063/1.1738649
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999 C 5 |a 10.1088/0741-3335/47/12B/S69
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999 C 5 |a 10.1103/PhysRevLett.96.035005
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|2 Crossref
999 C 5 |1 A. V. Gurevich
|y 1973
|2 Crossref
|o A. V. Gurevich 1973
999 C 5 |a 10.1103/PhysRevLett.92.175003
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999 C 5 |a 10.1063/1.1856933
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999 C 5 |a 10.1103/PhysRevE.72.026411
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999 C 5 |a 10.1063/1.1767096
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