Nonlinear compression of few-cycle multi-mJ 5 µm pulses in ZnSe around zero-dispersion

Martin Bock; Lorenz von Grafenstein; Dennis Ueberschaer; Günter Steinmeyer; Uwe Griebner

doi:10.1364/OL.502953

Optics Letters
Vol. 49,
Issue 2,
pp. 351-354
(2024)
•https://doi.org/10.1364/OL.502953

Nonlinear compression of few-cycle multi-mJ 5 µm pulses in ZnSe around zero-dispersion

Martin Bock, Lorenz von Grafenstein, Dennis Ueberschaer, Günter Steinmeyer, and Uwe Griebner

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Martin Bock, Lorenz von Grafenstein, Dennis Ueberschaer, Günter Steinmeyer, and Uwe Griebner, "Nonlinear compression of few-cycle multi-mJ 5 µm pulses in ZnSe around zero-dispersion," Opt. Lett. 49, 351-354 (2024)

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Abstract

We present a compact nonlinear compression scheme for the generation of millijoule few-cycle pulses beyond 4 µm wavelength. For this purpose 95 fs pulses at 5 µm from a 1 kHz midwave-IR optical parametric chirped pulse amplifier (OPCPA) are spectrally broadened due to a self-phase modulation in ZnSe. The subsequent compression in a bulk material yields 53 fs pulses with 1.9 mJ energy. The compression succeeds efficiently with only slight beam distortions and an energy throughput of 85%, which results in a peak power of 34 GW. The nonlinear refractive index of ZnSe was derived from the nonlinear compression and self-focusing measurements. Furthermore, we explore to which extent multiphoton absorption affects the nonlinear compression regime.

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Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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	Input	Output
	Measured	Expected (Sim.)	Measured
Spectral width (−10 dB)	950 nm	1,600 nm	1,450 nm
τ_P	95 fs	40 fs (FTL)	53 fs
E	2.2 mJ	1.9 mJ	1.9 mJ
GDD_τ	−1,000 fs²	1,000 fs²	flat
Kerr-lens	—	1.1 m	1.2 m

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