Experimental study of laser penetration in overdense plasmas at relativistic intensities. II: Explosion of thin foils by laser driven fast electrons

J. Fuchs; J. C. Adam; F. Amiranoff; S. D. Baton; N. Blanchot; P. Gallant; L. Gremillet; A. Héron; J. C. Kieffer; G. Laval; G. Malka; J. Miquel; P. Mora; H. Pépin; C. Rousseaux

doi:10.1063/1.873528

Experimental study of laser penetration in overdense plasmas at relativistic intensities. II: Explosion of thin foils by laser driven fast electrons

J. Fuchs
, J. C. Adam
, F. Amiranoff
, S. D. Baton
, N. Blanchot
, P. Gallant
, L. Gremillet
, A. Héron
, J. C. Kieffer
, G. Laval
, G. Malka
, J. Miquel
, P. Mora
, H. Pépin
, C. Rousseaux

INRS-ÉMT
CNRS
LULI
CEA/UVSQ/CNRS

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Propagation of a high-contrast frequency-doubled subpicosecond (300 fs) relativistic (Iλ² up to 5 × 10¹⁸ W·cm^-2·μm²) laser pulse through thin and initially solid foils is studied. Transmission values up to 10% are measured through targets with initial near solid densities. The strong intensity threshold observed for the transmitted energy is correlated with clear modifications of the transmitted and reflected spectra, electron generation, and beam imaging. Two-dimensional Cartesian particle-in-cell (PIC) simulations that qualitatively reproduce the experimental results suggest specific rapid heating of the thin targets by fast electrons, plasma expansion, and density decrease to relativistically transmissive conditions during the pulse.

langue originale	Anglais
Pages (de - à)	2569-2578
Nombre de pages	10
journal	Physics of Plasmas
Volume	6
Numéro de publication	6
Les DOIs	https://doi.org/10.1063/1.873528
état	Publié - 1 janv. 1999

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10.1063/1.873528

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Fuchs, J., Adam, J. C., Amiranoff, F., Baton, S. D., Blanchot, N., Gallant, P., Gremillet, L., Héron, A., Kieffer, J. C., Laval, G., Malka, G., Miquel, J., Mora, P., Pépin, H., & Rousseaux, C. (1999). Experimental study of laser penetration in overdense plasmas at relativistic intensities. II: Explosion of thin foils by laser driven fast electrons. Physics of Plasmas, 6(6), 2569-2578. https://doi.org/10.1063/1.873528

@article{74b50305be2f41bfb0335d0839d4cae3,

title = "Experimental study of laser penetration in overdense plasmas at relativistic intensities. II: Explosion of thin foils by laser driven fast electrons",

abstract = "Propagation of a high-contrast frequency-doubled subpicosecond (300 fs) relativistic (Iλ2 up to 5 × 1018 W·cm-2·μm2) laser pulse through thin and initially solid foils is studied. Transmission values up to 10\% are measured through targets with initial near solid densities. The strong intensity threshold observed for the transmitted energy is correlated with clear modifications of the transmitted and reflected spectra, electron generation, and beam imaging. Two-dimensional Cartesian particle-in-cell (PIC) simulations that qualitatively reproduce the experimental results suggest specific rapid heating of the thin targets by fast electrons, plasma expansion, and density decrease to relativistically transmissive conditions during the pulse.",

author = "J. Fuchs and Adam, \{J. C.\} and F. Amiranoff and Baton, \{S. D.\} and N. Blanchot and P. Gallant and L. Gremillet and A. H{\'e}ron and Kieffer, \{J. C.\} and G. Laval and G. Malka and J. Miquel and P. Mora and H. P{\'e}pin and C. Rousseaux",

year = "1999",

month = jan,

day = "1",

doi = "10.1063/1.873528",

language = "English",

volume = "6",

pages = "2569--2578",

journal = "Physics of Plasmas",

issn = "1070-664X",

number = "6",

}

Fuchs, J, Adam, JC, Amiranoff, F, Baton, SD, Blanchot, N, Gallant, P, Gremillet, L, Héron, A, Kieffer, JC, Laval, G, Malka, G, Miquel, J, Mora, P, Pépin, H & Rousseaux, C 1999, 'Experimental study of laser penetration in overdense plasmas at relativistic intensities. II: Explosion of thin foils by laser driven fast electrons', Physics of Plasmas, VOL. 6, Numéro 6, p. 2569-2578. https://doi.org/10.1063/1.873528

TY - JOUR

T1 - Experimental study of laser penetration in overdense plasmas at relativistic intensities. II

T2 - Explosion of thin foils by laser driven fast electrons

AU - Fuchs, J.

AU - Adam, J. C.

AU - Amiranoff, F.

AU - Baton, S. D.

AU - Blanchot, N.

AU - Gallant, P.

AU - Gremillet, L.

AU - Héron, A.

AU - Kieffer, J. C.

AU - Laval, G.

AU - Malka, G.

AU - Miquel, J.

AU - Mora, P.

AU - Pépin, H.

AU - Rousseaux, C.

PY - 1999/1/1

Y1 - 1999/1/1

N2 - Propagation of a high-contrast frequency-doubled subpicosecond (300 fs) relativistic (Iλ2 up to 5 × 1018 W·cm-2·μm2) laser pulse through thin and initially solid foils is studied. Transmission values up to 10% are measured through targets with initial near solid densities. The strong intensity threshold observed for the transmitted energy is correlated with clear modifications of the transmitted and reflected spectra, electron generation, and beam imaging. Two-dimensional Cartesian particle-in-cell (PIC) simulations that qualitatively reproduce the experimental results suggest specific rapid heating of the thin targets by fast electrons, plasma expansion, and density decrease to relativistically transmissive conditions during the pulse.

AB - Propagation of a high-contrast frequency-doubled subpicosecond (300 fs) relativistic (Iλ2 up to 5 × 1018 W·cm-2·μm2) laser pulse through thin and initially solid foils is studied. Transmission values up to 10% are measured through targets with initial near solid densities. The strong intensity threshold observed for the transmitted energy is correlated with clear modifications of the transmitted and reflected spectra, electron generation, and beam imaging. Two-dimensional Cartesian particle-in-cell (PIC) simulations that qualitatively reproduce the experimental results suggest specific rapid heating of the thin targets by fast electrons, plasma expansion, and density decrease to relativistically transmissive conditions during the pulse.

UR - https://www.scopus.com/pages/publications/0000133079

U2 - 10.1063/1.873528

DO - 10.1063/1.873528

M3 - Article

AN - SCOPUS:0000133079

SN - 1070-664X

VL - 6

SP - 2569

EP - 2578

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 6

ER -

Experimental study of laser penetration in overdense plasmas at relativistic intensities. II: Explosion of thin foils by laser driven fast electrons

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