Plasma-based creation of short light pulses: Analysis and simulation of amplification and focusing

C. Riconda; S. Weber; L. Lancia; J. R. Marquès; G. Mourou; J. Fuchs

doi:10.1088/0741-3335/57/1/014002

Plasma-based creation of short light pulses: Analysis and simulation of amplification and focusing

C. Riconda
, S. Weber
, L. Lancia
, J. R. Marquès
, G. Mourou
, J. Fuchs

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

Abstract

Plasmas can serve as damage-less optics for amplifying and focusing light pulses to very high intensity. This provides a way to overcome the limitations of solid-state optical materials as a damage threshold in the classical sense is absent. The amplification process relies on parametric processes in plasmas exploiting the coupling of transverse electromagnetic waves to a longitudinal plasma wave. The plasma response can either be an electron plasma wave (stimulated Raman scattering), an ion-acoustic wave (stimulated Brillouin scattering) or a more complicated non-resonant feature in the case of very short pulses.

Original language	English
Article number	014002
Journal	Plasma Physics and Controlled Fusion
Volume	57
Issue number	1
DOIs	https://doi.org/10.1088/0741-3335/57/1/014002
Publication status	Published - 1 Jan 2015

Keywords

PIC simulations
Parametric instabilities
Plasma-based amplification

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abstract = "Plasmas can serve as damage-less optics for amplifying and focusing light pulses to very high intensity. This provides a way to overcome the limitations of solid-state optical materials as a damage threshold in the classical sense is absent. The amplification process relies on parametric processes in plasmas exploiting the coupling of transverse electromagnetic waves to a longitudinal plasma wave. The plasma response can either be an electron plasma wave (stimulated Raman scattering), an ion-acoustic wave (stimulated Brillouin scattering) or a more complicated non-resonant feature in the case of very short pulses.",

keywords = "PIC simulations, Parametric instabilities, Plasma-based amplification",

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AU - Riconda, C.

AU - Weber, S.

AU - Lancia, L.

AU - Marquès, J. R.

AU - Mourou, G.

AU - Fuchs, J.

PY - 2015/1/1

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N2 - Plasmas can serve as damage-less optics for amplifying and focusing light pulses to very high intensity. This provides a way to overcome the limitations of solid-state optical materials as a damage threshold in the classical sense is absent. The amplification process relies on parametric processes in plasmas exploiting the coupling of transverse electromagnetic waves to a longitudinal plasma wave. The plasma response can either be an electron plasma wave (stimulated Raman scattering), an ion-acoustic wave (stimulated Brillouin scattering) or a more complicated non-resonant feature in the case of very short pulses.

AB - Plasmas can serve as damage-less optics for amplifying and focusing light pulses to very high intensity. This provides a way to overcome the limitations of solid-state optical materials as a damage threshold in the classical sense is absent. The amplification process relies on parametric processes in plasmas exploiting the coupling of transverse electromagnetic waves to a longitudinal plasma wave. The plasma response can either be an electron plasma wave (stimulated Raman scattering), an ion-acoustic wave (stimulated Brillouin scattering) or a more complicated non-resonant feature in the case of very short pulses.

KW - PIC simulations

KW - Parametric instabilities

KW - Plasma-based amplification

UR - https://www.scopus.com/pages/publications/84913593352

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DO - 10.1088/0741-3335/57/1/014002

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AN - SCOPUS:84913593352

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VL - 57

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 1

M1 - 014002

ER -

Plasma-based creation of short light pulses: Analysis and simulation of amplification and focusing

Abstract

Keywords

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