Transverse spatial improvement of a transiently pumped soft-x-ray amplifier

K. Cassou; Ph Zeitoun; P. Velarde; F. Roy; F. Ogando; M. Fajardo; G. Faivre; D. Ros

doi:10.1103/PhysRevA.74.045802

Transverse spatial improvement of a transiently pumped soft-x-ray amplifier

K. Cassou
, Ph Zeitoun
, P. Velarde
, F. Roy
, F. Ogando
, M. Fajardo
, G. Faivre
, D. Ros

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

Abstract

A soft-x-ray laser amplifier based on plasma solid target with a weak transverse refraction and a large gain zone is numerically investigated. A two-dimensional hydrodynamic code ARWEN with radiation transport solved by multigroup method based on adaptive mesh refinement has been used to describe the spatial and temporal plasma evolution. An iron target is transiently pumped creating gain on the J=0-1 neonlike transition at λ=25.5 nm. We show that using a super-Gaussian, instead of Gaussian, transverse spatial laser driver profile leads to a reduction of the transverse refraction by two orders of magnitude and to an enlargement of the gain zone surface by about a factor of 2.

Original language	English
Article number	045802
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	74
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevA.74.045802
Publication status	Published - 16 Oct 2006

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10.1103/PhysRevA.74.045802

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title = "Transverse spatial improvement of a transiently pumped soft-x-ray amplifier",

abstract = "A soft-x-ray laser amplifier based on plasma solid target with a weak transverse refraction and a large gain zone is numerically investigated. A two-dimensional hydrodynamic code ARWEN with radiation transport solved by multigroup method based on adaptive mesh refinement has been used to describe the spatial and temporal plasma evolution. An iron target is transiently pumped creating gain on the J=0-1 neonlike transition at λ=25.5 nm. We show that using a super-Gaussian, instead of Gaussian, transverse spatial laser driver profile leads to a reduction of the transverse refraction by two orders of magnitude and to an enlargement of the gain zone surface by about a factor of 2.",

author = "K. Cassou and Ph Zeitoun and P. Velarde and F. Roy and F. Ogando and M. Fajardo and G. Faivre and D. Ros",

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AU - Cassou, K.

AU - Zeitoun, Ph

AU - Velarde, P.

AU - Roy, F.

AU - Ogando, F.

AU - Fajardo, M.

AU - Faivre, G.

AU - Ros, D.

PY - 2006/10/16

Y1 - 2006/10/16

N2 - A soft-x-ray laser amplifier based on plasma solid target with a weak transverse refraction and a large gain zone is numerically investigated. A two-dimensional hydrodynamic code ARWEN with radiation transport solved by multigroup method based on adaptive mesh refinement has been used to describe the spatial and temporal plasma evolution. An iron target is transiently pumped creating gain on the J=0-1 neonlike transition at λ=25.5 nm. We show that using a super-Gaussian, instead of Gaussian, transverse spatial laser driver profile leads to a reduction of the transverse refraction by two orders of magnitude and to an enlargement of the gain zone surface by about a factor of 2.

AB - A soft-x-ray laser amplifier based on plasma solid target with a weak transverse refraction and a large gain zone is numerically investigated. A two-dimensional hydrodynamic code ARWEN with radiation transport solved by multigroup method based on adaptive mesh refinement has been used to describe the spatial and temporal plasma evolution. An iron target is transiently pumped creating gain on the J=0-1 neonlike transition at λ=25.5 nm. We show that using a super-Gaussian, instead of Gaussian, transverse spatial laser driver profile leads to a reduction of the transverse refraction by two orders of magnitude and to an enlargement of the gain zone surface by about a factor of 2.

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DO - 10.1103/PhysRevA.74.045802

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VL - 74

JO - Physical Review A - Atomic, Molecular, and Optical Physics

JF - Physical Review A - Atomic, Molecular, and Optical Physics

IS - 4

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ER -

Transverse spatial improvement of a transiently pumped soft-x-ray amplifier

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