Enhanced propagation for relativistic laser pulses in inhomogeneous plasmas using hollow channels

J. Fuchs; E. D'Humières; Y. Sentoku; P. Antici; S. Atzeni; H. Bandulet; S. Depierreux; C. Labaune; A. Schiavi

doi:10.1103/PhysRevLett.105.225001

Enhanced propagation for relativistic laser pulses in inhomogeneous plasmas using hollow channels

J. Fuchs
, E. D'Humières
, Y. Sentoku
, P. Antici
, S. Atzeni
, H. Bandulet
, S. Depierreux
, C. Labaune
, A. Schiavi

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

Abstract

The influence of long (several millimeters) and hollow channels, bored in inhomogeneous ionized plasma by using a long pulse laser beam, on the propagation of short, ultraintense laser pulses has been studied. Compared to the case without a channel, propagation in channels significantly improves beam transmission and maintains a beam quality close to propagation in vacuum. In addition, the growth of the forward-Raman instability is strongly reduced. These results are beneficial for the direct scheme of the fast ignitor concept of inertial confinement fusion as we demonstrate, in fast-ignition-relevant conditions, that with such channels laser energy can be carried through increasingly dense plasmas close to the fuel core with minimal losses.

Original language	English
Article number	225001
Journal	Physical Review Letters
Volume	105
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevLett.105.225001
Publication status	Published - 24 Nov 2010

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10.1103/PhysRevLett.105.225001

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title = "Enhanced propagation for relativistic laser pulses in inhomogeneous plasmas using hollow channels",

abstract = "The influence of long (several millimeters) and hollow channels, bored in inhomogeneous ionized plasma by using a long pulse laser beam, on the propagation of short, ultraintense laser pulses has been studied. Compared to the case without a channel, propagation in channels significantly improves beam transmission and maintains a beam quality close to propagation in vacuum. In addition, the growth of the forward-Raman instability is strongly reduced. These results are beneficial for the direct scheme of the fast ignitor concept of inertial confinement fusion as we demonstrate, in fast-ignition-relevant conditions, that with such channels laser energy can be carried through increasingly dense plasmas close to the fuel core with minimal losses.",

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AU - Fuchs, J.

AU - D'Humières, E.

AU - Sentoku, Y.

AU - Antici, P.

AU - Atzeni, S.

AU - Bandulet, H.

AU - Depierreux, S.

AU - Labaune, C.

AU - Schiavi, A.

PY - 2010/11/24

Y1 - 2010/11/24

N2 - The influence of long (several millimeters) and hollow channels, bored in inhomogeneous ionized plasma by using a long pulse laser beam, on the propagation of short, ultraintense laser pulses has been studied. Compared to the case without a channel, propagation in channels significantly improves beam transmission and maintains a beam quality close to propagation in vacuum. In addition, the growth of the forward-Raman instability is strongly reduced. These results are beneficial for the direct scheme of the fast ignitor concept of inertial confinement fusion as we demonstrate, in fast-ignition-relevant conditions, that with such channels laser energy can be carried through increasingly dense plasmas close to the fuel core with minimal losses.

AB - The influence of long (several millimeters) and hollow channels, bored in inhomogeneous ionized plasma by using a long pulse laser beam, on the propagation of short, ultraintense laser pulses has been studied. Compared to the case without a channel, propagation in channels significantly improves beam transmission and maintains a beam quality close to propagation in vacuum. In addition, the growth of the forward-Raman instability is strongly reduced. These results are beneficial for the direct scheme of the fast ignitor concept of inertial confinement fusion as we demonstrate, in fast-ignition-relevant conditions, that with such channels laser energy can be carried through increasingly dense plasmas close to the fuel core with minimal losses.

U2 - 10.1103/PhysRevLett.105.225001

DO - 10.1103/PhysRevLett.105.225001

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 22

M1 - 225001

ER -

Enhanced propagation for relativistic laser pulses in inhomogeneous plasmas using hollow channels

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