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Laboratoire pour l'utilisation des lasers intenses
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Tutelle https://www.cnrs.fr/ Tutelle https://www.polytechnique.edu/ Tutelle https://www.sorbonne-universite.fr/ Tutelle https://www.cea.fr/
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Page - LULI Lab

PHYHDEL (PHYsique de la matière à Haute Densité d'Energie par Laser)

High Energy Density Physics is the scientific framework of the PHYHDEL activities. It refers to energy densities exceeding 1011 J/m3, or to pressures above 1 Mbar, and covers many topics that could be adressed with high-energy lasers and/or pulsed-power devices, thus displaying a variety of challen…
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Projects

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Publications

2022 | 2021 | 2020 | 2019 Below, by year, are the publications listed in the HAL open archive.
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R&D Laser

Team Composition Patrick AUDEBERT Mélanie CHABANIS Jean-Christophe CHANTELOUP Marie FROIDEVAUX Ihsan FSAIFES Raphael HUMBLOT Corentin LECHEVALIER Loic MEIGNIEN Dimitris PAPADOPOULOS Vincent QUERU Claude-alban RANÉLY-VERGÉ-DÉPRÉ
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Event - LULI Lab

Radiative Properties in Hot Dense Matter workshop, RPHDM2024

The workshop venue will be Sorbonne Université, will be held in ParisMore details on registration, abstract submission . will be sent within a couple of months.On behalf of the local organizing committee
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Research

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Research teams

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Scientists

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SMILEI figure au sommaire de la lettre de l'IDRIS de mai 2016

Pour accompagner au mieux le formidable effort expérimental et technologique mené dans le cadre du futur laser multi-petawatt APOLLON, plusieurs laboratoires du plateau de Saclay se sont fédérés autour du projet SMILEI visant à développer un nouvel outil de simulation dédié à l’interaction laser-pl…
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SPRINT (Sources de particules & rayonnement intenses)

High-power lasers are at present the best technological tool mankind has developed in order to concentrate, in the form of a light beam, energy in time and space. This allows in general to transfer to matter such concentrated energy, which can take various forms: either “thermal” (as in the Sun whe…
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Surface plasma waves excitation

Ultra-short (fs) intense (relativistic) laser interaction with modulated over-dense plasmas (produced from a thin grating target having a periodic groove on its front surface) was numerically and experimentally investigated.In over-dense plasmas, laser energy is usually weakly absorbed within an op…
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TIPS (Théorie & interprétation plasma, simulations)

The TIPS team is conducting theoretical and numerical studies to more deeply understand laser-plasma interaction and laser-created plasma physics, either in support of the experimental work performed by other teams of the laboratory or on its own. Thanks to a variety of codes at its disposal and to…
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