Interaction of Ultraintense Laser Vortices with Plasma Mirrors

A. Denoeud; L. Chopineau; A. Leblanc; F. Quéré

doi:10.1103/PhysRevLett.118.033902

Interaction of Ultraintense Laser Vortices with Plasma Mirrors

A. Denoeud
, L. Chopineau
, A. Leblanc
, F. Quéré

Université Paris-Saclay

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

Abstract

Laser beams carrying orbital angular momentum (OAM) have found major applications in a variety of scientific fields, and their potential for ultrahigh-intensity laser-matter interactions has since recently been considered theoretically. We present an experiment where such beams interact with plasma mirrors up to laser intensities such that the motion of electrons in the laser field is relativistic. By measuring the spatial intensity and phase profiles of the high-order harmonics generated in the reflected beam, we obtain evidence for the helical wavefronts of the high-intensity laser at focus, and study the conservation of OAM in highly nonlinear optical processes at extreme laser intensities. The physical effects determining the field mode content of the twisted harmonic beams are elucidated.

Original language	English
Article number	033902
Journal	Physical Review Letters
Volume	118
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.118.033902
Publication status	Published - 18 Jan 2017
Externally published	Yes

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10.1103/PhysRevLett.118.033902

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title = "Interaction of Ultraintense Laser Vortices with Plasma Mirrors",

abstract = "Laser beams carrying orbital angular momentum (OAM) have found major applications in a variety of scientific fields, and their potential for ultrahigh-intensity laser-matter interactions has since recently been considered theoretically. We present an experiment where such beams interact with plasma mirrors up to laser intensities such that the motion of electrons in the laser field is relativistic. By measuring the spatial intensity and phase profiles of the high-order harmonics generated in the reflected beam, we obtain evidence for the helical wavefronts of the high-intensity laser at focus, and study the conservation of OAM in highly nonlinear optical processes at extreme laser intensities. The physical effects determining the field mode content of the twisted harmonic beams are elucidated.",

author = "A. Denoeud and L. Chopineau and A. Leblanc and F. Qu{\'e}r{\'e}",

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AU - Denoeud, A.

AU - Chopineau, L.

AU - Leblanc, A.

AU - Quéré, F.

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Y1 - 2017/1/18

N2 - Laser beams carrying orbital angular momentum (OAM) have found major applications in a variety of scientific fields, and their potential for ultrahigh-intensity laser-matter interactions has since recently been considered theoretically. We present an experiment where such beams interact with plasma mirrors up to laser intensities such that the motion of electrons in the laser field is relativistic. By measuring the spatial intensity and phase profiles of the high-order harmonics generated in the reflected beam, we obtain evidence for the helical wavefronts of the high-intensity laser at focus, and study the conservation of OAM in highly nonlinear optical processes at extreme laser intensities. The physical effects determining the field mode content of the twisted harmonic beams are elucidated.

AB - Laser beams carrying orbital angular momentum (OAM) have found major applications in a variety of scientific fields, and their potential for ultrahigh-intensity laser-matter interactions has since recently been considered theoretically. We present an experiment where such beams interact with plasma mirrors up to laser intensities such that the motion of electrons in the laser field is relativistic. By measuring the spatial intensity and phase profiles of the high-order harmonics generated in the reflected beam, we obtain evidence for the helical wavefronts of the high-intensity laser at focus, and study the conservation of OAM in highly nonlinear optical processes at extreme laser intensities. The physical effects determining the field mode content of the twisted harmonic beams are elucidated.

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DO - 10.1103/PhysRevLett.118.033902

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VL - 118

JO - Physical Review Letters

JF - Physical Review Letters

IS - 3

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ER -

Interaction of Ultraintense Laser Vortices with Plasma Mirrors

Abstract

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