Efficient laser-overdense plasma coupling via surface plasma waves and steady magnetic field generation

A. Bigongiari; M. Raynaud; C. Riconda; A. Héron; A. MacChi

doi:10.1063/1.3646520

Efficient laser-overdense plasma coupling via surface plasma waves and steady magnetic field generation

A. Bigongiari
, M. Raynaud
, C. Riconda
, A. Héron
, A. MacChi

Laboratoire des Solides Irradiés
LULI
CNRS
LENS

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

Abstract

The efficiency of laser overdense plasma coupling via surface plasma wave excitation is investigated. Two-dimensional particle-in-cell simulations are performed over a wide range of laser pulse intensity from 10¹⁵ to 10²⁰ W cm^-2 μm² with electron density ranging from 25 to 100n_c to describe the laser interaction with a grating target where a surface plasma wave excitation condition is fulfilled. The numerical studies confirm an efficient coupling with an enhancement of the laser absorption up to 75%. The simulations also show the presence of a localized, quasi-static magnetic field at the plasma surface. Two interaction regimes are identified for low (Iλ²< 10¹⁷ W cm^-2 μm²) and high (Iλ² >10 ¹⁷ W cm^-2 μm²) laser pulse intensities. At "relativistic" laser intensity, steady magnetic fields as high as ∼580 MG μm/λ₀ at 7× 10¹⁹ W cm ^-2 μm² are obtained in the simulations.

Original language	English
Article number	102701
Journal	Physics of Plasmas
Volume	18
Issue number	10
DOIs	https://doi.org/10.1063/1.3646520
Publication status	Published - 1 Oct 2011

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abstract = "The efficiency of laser overdense plasma coupling via surface plasma wave excitation is investigated. Two-dimensional particle-in-cell simulations are performed over a wide range of laser pulse intensity from 1015 to 1020 W cm-2 μm2 with electron density ranging from 25 to 100nc to describe the laser interaction with a grating target where a surface plasma wave excitation condition is fulfilled. The numerical studies confirm an efficient coupling with an enhancement of the laser absorption up to 75\%. The simulations also show the presence of a localized, quasi-static magnetic field at the plasma surface. Two interaction regimes are identified for low (Iλ2< 1017 W cm-2 μm2) and high (Iλ2 >10 17 W cm-2 μm2) laser pulse intensities. At {"}relativistic{"} laser intensity, steady magnetic fields as high as ∼580 MG μm/λ0 at 7× 1019 W cm -2 μm2 are obtained in the simulations.",

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T1 - Efficient laser-overdense plasma coupling via surface plasma waves and steady magnetic field generation

AU - Bigongiari, A.

AU - Raynaud, M.

AU - Riconda, C.

AU - Héron, A.

AU - MacChi, A.

PY - 2011/10/1

Y1 - 2011/10/1

N2 - The efficiency of laser overdense plasma coupling via surface plasma wave excitation is investigated. Two-dimensional particle-in-cell simulations are performed over a wide range of laser pulse intensity from 1015 to 1020 W cm-2 μm2 with electron density ranging from 25 to 100nc to describe the laser interaction with a grating target where a surface plasma wave excitation condition is fulfilled. The numerical studies confirm an efficient coupling with an enhancement of the laser absorption up to 75%. The simulations also show the presence of a localized, quasi-static magnetic field at the plasma surface. Two interaction regimes are identified for low (Iλ2< 1017 W cm-2 μm2) and high (Iλ2 >10 17 W cm-2 μm2) laser pulse intensities. At "relativistic" laser intensity, steady magnetic fields as high as ∼580 MG μm/λ0 at 7× 1019 W cm -2 μm2 are obtained in the simulations.

AB - The efficiency of laser overdense plasma coupling via surface plasma wave excitation is investigated. Two-dimensional particle-in-cell simulations are performed over a wide range of laser pulse intensity from 1015 to 1020 W cm-2 μm2 with electron density ranging from 25 to 100nc to describe the laser interaction with a grating target where a surface plasma wave excitation condition is fulfilled. The numerical studies confirm an efficient coupling with an enhancement of the laser absorption up to 75%. The simulations also show the presence of a localized, quasi-static magnetic field at the plasma surface. Two interaction regimes are identified for low (Iλ2< 1017 W cm-2 μm2) and high (Iλ2 >10 17 W cm-2 μm2) laser pulse intensities. At "relativistic" laser intensity, steady magnetic fields as high as ∼580 MG μm/λ0 at 7× 1019 W cm -2 μm2 are obtained in the simulations.

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DO - 10.1063/1.3646520

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ER -

Efficient laser-overdense plasma coupling via surface plasma waves and steady magnetic field generation

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