Axiparabola: A long-focal-depth, high-resolution mirror for broadband high-intensity lasers

Slava Smartsev; Clément Caizergues; Kosta Oubrerie; Julien Gautier; Jean Philippe Goddet; Amar Tafzi; Kim Ta Phuoc; Victor Malka; Cédric Thaury

doi:10.1364/OL.44.003414

Axiparabola: A long-focal-depth, high-resolution mirror for broadband high-intensity lasers

Slava Smartsev
, Clément Caizergues
, Kosta Oubrerie
, Julien Gautier
, Jean Philippe Goddet
, Amar Tafzi
, Kim Ta Phuoc
, Victor Malka
, Cédric Thaury

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

Abstract

Diffraction puts a fundamental limit on the distance over which a light beam can remain focused. For about 30 years, several techniques to overcome this limit have been demonstrated. Here, we propose a reflective optics, namely, the axiparabola, that allows to extend the production of “diffraction-free” beams to high-peak-power and broadband laser pulses. We first describe the properties of this aspheric optics. We then analyze and compare its performances in numerical simulations and in experiments. Finally, we use it to produce a plasma waveguide that can guide an intense laser pulse over 10 millimeters.

Original language	English
Pages (from-to)	3414-3417
Number of pages	4
Journal	Optics Letters
Volume	44
Issue number	14
DOIs	https://doi.org/10.1364/OL.44.003414
Publication status	Published - 1 Jan 2019

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abstract = "Diffraction puts a fundamental limit on the distance over which a light beam can remain focused. For about 30 years, several techniques to overcome this limit have been demonstrated. Here, we propose a reflective optics, namely, the axiparabola, that allows to extend the production of “diffraction-free” beams to high-peak-power and broadband laser pulses. We first describe the properties of this aspheric optics. We then analyze and compare its performances in numerical simulations and in experiments. Finally, we use it to produce a plasma waveguide that can guide an intense laser pulse over 10 millimeters.",

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AU - Smartsev, Slava

AU - Caizergues, Clément

AU - Oubrerie, Kosta

AU - Gautier, Julien

AU - Goddet, Jean Philippe

AU - Tafzi, Amar

AU - Ta Phuoc, Kim

AU - Malka, Victor

AU - Thaury, Cédric

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AB - Diffraction puts a fundamental limit on the distance over which a light beam can remain focused. For about 30 years, several techniques to overcome this limit have been demonstrated. Here, we propose a reflective optics, namely, the axiparabola, that allows to extend the production of “diffraction-free” beams to high-peak-power and broadband laser pulses. We first describe the properties of this aspheric optics. We then analyze and compare its performances in numerical simulations and in experiments. Finally, we use it to produce a plasma waveguide that can guide an intense laser pulse over 10 millimeters.

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IS - 14

ER -

Axiparabola: A long-focal-depth, high-resolution mirror for broadband high-intensity lasers

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