Nuclear physics with advanced brilliant gamma beams at ELI–NP

Nuclear physics with advanced brilliant gamma beams at ELI–NP

The Extreme Light Infrastructure - Nuclear Physics facility is dedicated to nuclear physics studies with the use of extreme electromagnetic radiation. One of the main research system to be installed and operated in the facility is an outstanding high brilliance gamma beam system. The Gamma Beam Syst...

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Main Authors: Ur Călin A., Filipescu Dan, Gheorghe Ioana, Iancu Violeta, Suliman Gabriel, Teşileanu Ovidiu
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/201610701002
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spelling doaj-7d1f735b6abd47b98361f17e4a78b2bd2021-08-02T09:18:37ZengEDP SciencesEPJ Web of Conferences2100-014X2016-01-011070100210.1051/epjconf/201610701002epjconf_nsrt2016_01002Nuclear physics with advanced brilliant gamma beams at ELI–NPUr Călin A.0Filipescu Dan1Gheorghe IoanaIancu Violeta2Suliman Gabriel3Teşileanu Ovidiu4Extreme Light Infrastructure - Nuclear Physics, IFIN-HHExtreme Light Infrastructure - Nuclear Physics, IFIN-HHExtreme Light Infrastructure - Nuclear Physics, IFIN-HHExtreme Light Infrastructure - Nuclear Physics, IFIN-HHExtreme Light Infrastructure - Nuclear Physics, IFIN-HHThe Extreme Light Infrastructure - Nuclear Physics facility is dedicated to nuclear physics studies with the use of extreme electromagnetic radiation. One of the main research system to be installed and operated in the facility is an outstanding high brilliance gamma beam system. The Gamma Beam System of ELI–NP will produce intense, quasi–monochromatic gamma beams via inverse Compton scattering of short laser pulses on relativistic electron beam pulses. The gamma beams available at ELI–NP will allow for the performance of photo-nuclear reactions aiming to reveal the intimate structure of the atomic nucleus. Nuclear Resonance Fluorescence, photo-fission, photo-disintegration reactions above the particle threshold will be used to study the dipole response of nuclei, the structure of the Pygmy resonances, nuclear processes relevant for astrophysics, production and study of exotic neutron–rich nuclei.http://dx.doi.org/10.1051/epjconf/201610701002
collection DOAJ
language English
format Article
sources DOAJ
author Ur Călin A.
Filipescu Dan
Gheorghe Ioana
Iancu Violeta
Suliman Gabriel
Teşileanu Ovidiu
spellingShingle Ur Călin A.
Filipescu Dan
Gheorghe Ioana
Iancu Violeta
Suliman Gabriel
Teşileanu Ovidiu
Nuclear physics with advanced brilliant gamma beams at ELI–NP
EPJ Web of Conferences
author_facet Ur Călin A.
Filipescu Dan
Gheorghe Ioana
Iancu Violeta
Suliman Gabriel
Teşileanu Ovidiu
author_sort Ur Călin A.
title Nuclear physics with advanced brilliant gamma beams at ELI–NP
title_short Nuclear physics with advanced brilliant gamma beams at ELI–NP
title_full Nuclear physics with advanced brilliant gamma beams at ELI–NP
title_fullStr Nuclear physics with advanced brilliant gamma beams at ELI–NP
title_full_unstemmed Nuclear physics with advanced brilliant gamma beams at ELI–NP
title_sort nuclear physics with advanced brilliant gamma beams at eli–np
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2016-01-01
description The Extreme Light Infrastructure - Nuclear Physics facility is dedicated to nuclear physics studies with the use of extreme electromagnetic radiation. One of the main research system to be installed and operated in the facility is an outstanding high brilliance gamma beam system. The Gamma Beam System of ELI–NP will produce intense, quasi–monochromatic gamma beams via inverse Compton scattering of short laser pulses on relativistic electron beam pulses. The gamma beams available at ELI–NP will allow for the performance of photo-nuclear reactions aiming to reveal the intimate structure of the atomic nucleus. Nuclear Resonance Fluorescence, photo-fission, photo-disintegration reactions above the particle threshold will be used to study the dipole response of nuclei, the structure of the Pygmy resonances, nuclear processes relevant for astrophysics, production and study of exotic neutron–rich nuclei.
url http://dx.doi.org/10.1051/epjconf/201610701002
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AT gheorgheioana nuclearphysicswithadvancedbrilliantgammabeamsatelinp
AT iancuvioleta nuclearphysicswithadvancedbrilliantgammabeamsatelinp
AT sulimangabriel nuclearphysicswithadvancedbrilliantgammabeamsatelinp
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