Highly efficient optical parametric amplifier tunable from near- to mid-IR for driving extreme nonlinear optics in solids

E. A. Migal; F. V. Potemkin; V. M. Gordienko

doi:10.1364/OL.42.005218

Optics Letters
Vol. 42,
Issue 24,
pp. 5218-5221
(2017)
•https://doi.org/10.1364/OL.42.005218

Highly efficient optical parametric amplifier tunable from near- to mid-IR for driving extreme nonlinear optics in solids

E. A. Migal, F. V. Potemkin, and V. M. Gordienko

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E. A. Migal, F. V. Potemkin, and V. M. Gordienko, "Highly efficient optical parametric amplifier tunable from near- to mid-IR for driving extreme nonlinear optics in solids," Opt. Lett. 42, 5218-5221 (2017)

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Table of Contents Category
- Nonlinear Optics
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About this Article
History
- Original Manuscript: October 10, 2017
- Revised Manuscript: November 10, 2017
- Manuscript Accepted: November 20, 2017
- Published: December 12, 2017

Abstract

We have developed a robust optical parametric amplifier (OPA) based on three- ${AgGaS}_{2}$ -crystal pumping by a Cr:Forsterite GW femtosecond laser system, generating 150 fs pulses in dual bands of 1.6–2.0 μm (signal wave) and 3.5–5.5 μm (idler wave). By introducing a negative prechirp to the pump, a combined efficiency in two waves of greater than 10% was achieved, with signal energy up to 110 μJ and idler energy up to 43 μJ. Operation parameters of the system (intensity up to $90 TW / {cm}^{2}$ ) make OPA a promising tool for driving nonlinear optical phenomena, including generation of optical harmonics and laser-induced extreme states of matter in solids and liquids. As a proof of principle, we generated harmonics up to the sixth order and sum frequencies in 5 mm thick polycrystalline ZnSe.

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