Prospects for nuclear physics with lasers

F. Hannachi; M. M. Aléonard; M. Gerbaux; F. Gobet; G. Malka; C. Plaisir; J. N. Scheurer; M. Tarisien; P. Audebert; E. Brambrink; V. Méot; P. Morel; Ph Nicolaï; V. Tikhonchuk

doi:10.1088/0741-3335/49/12B/S06

Prospects for nuclear physics with lasers

F. Hannachi
, M. M. Aléonard
, M. Gerbaux
, F. Gobet
, G. Malka
, C. Plaisir
, J. N. Scheurer
, M. Tarisien
, P. Audebert
, E. Brambrink
, V. Méot
, P. Morel
, Ph Nicolaï
, V. Tikhonchuk

Research output: Contribution to journal › Article › peer-review

Abstract

The development of high intensity lasers has opened up new opportunities for nuclear physics studies in extreme conditions which cannot be reached with conventional particle accelerators. A laser is a unique tool to produce plasma and very high fluxes of photon and particle beams in very short duration pulses. Both aspects are of great interest for fundamental nuclear physics studies. In plasma the electron-ions collisions may modify atomic and nuclear level properties. This is of prime importance for the population of isomeric states and the issue of energy storage in nuclei. Nuclear properties in the presence of very high electromagnetic fields, nuclear reaction rates or properties in hot and dense plasmas are new domains of investigation. Our group has launched an experimental program to evaluate the possibilities for such nuclear physics studies at high intensity laser facilities. This program and its first results are presented.

Original language	English
Pages (from-to)	B79-B86
Journal	Plasma Physics and Controlled Fusion
Volume	49
Issue number	12 B
DOIs	https://doi.org/10.1088/0741-3335/49/12B/S06
Publication status	Published - 1 Dec 2007

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title = "Prospects for nuclear physics with lasers",

abstract = "The development of high intensity lasers has opened up new opportunities for nuclear physics studies in extreme conditions which cannot be reached with conventional particle accelerators. A laser is a unique tool to produce plasma and very high fluxes of photon and particle beams in very short duration pulses. Both aspects are of great interest for fundamental nuclear physics studies. In plasma the electron-ions collisions may modify atomic and nuclear level properties. This is of prime importance for the population of isomeric states and the issue of energy storage in nuclei. Nuclear properties in the presence of very high electromagnetic fields, nuclear reaction rates or properties in hot and dense plasmas are new domains of investigation. Our group has launched an experimental program to evaluate the possibilities for such nuclear physics studies at high intensity laser facilities. This program and its first results are presented.",

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T1 - Prospects for nuclear physics with lasers

AU - Hannachi, F.

AU - Aléonard, M. M.

AU - Gerbaux, M.

AU - Gobet, F.

AU - Malka, G.

AU - Plaisir, C.

AU - Scheurer, J. N.

AU - Tarisien, M.

AU - Audebert, P.

AU - Brambrink, E.

AU - Méot, V.

AU - Morel, P.

AU - Nicolaï, Ph

AU - Tikhonchuk, V.

PY - 2007/12/1

Y1 - 2007/12/1

N2 - The development of high intensity lasers has opened up new opportunities for nuclear physics studies in extreme conditions which cannot be reached with conventional particle accelerators. A laser is a unique tool to produce plasma and very high fluxes of photon and particle beams in very short duration pulses. Both aspects are of great interest for fundamental nuclear physics studies. In plasma the electron-ions collisions may modify atomic and nuclear level properties. This is of prime importance for the population of isomeric states and the issue of energy storage in nuclei. Nuclear properties in the presence of very high electromagnetic fields, nuclear reaction rates or properties in hot and dense plasmas are new domains of investigation. Our group has launched an experimental program to evaluate the possibilities for such nuclear physics studies at high intensity laser facilities. This program and its first results are presented.

AB - The development of high intensity lasers has opened up new opportunities for nuclear physics studies in extreme conditions which cannot be reached with conventional particle accelerators. A laser is a unique tool to produce plasma and very high fluxes of photon and particle beams in very short duration pulses. Both aspects are of great interest for fundamental nuclear physics studies. In plasma the electron-ions collisions may modify atomic and nuclear level properties. This is of prime importance for the population of isomeric states and the issue of energy storage in nuclei. Nuclear properties in the presence of very high electromagnetic fields, nuclear reaction rates or properties in hot and dense plasmas are new domains of investigation. Our group has launched an experimental program to evaluate the possibilities for such nuclear physics studies at high intensity laser facilities. This program and its first results are presented.

U2 - 10.1088/0741-3335/49/12B/S06

DO - 10.1088/0741-3335/49/12B/S06

M3 - Article

AN - SCOPUS:36348934982

SN - 0741-3335

VL - 49

SP - B79-B86

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 12 B

ER -

Prospects for nuclear physics with lasers

Abstract

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