Nonlinear pulse compression based on a gas-filled multipass cell

L. Lavenu; M. Natile; F. Guichard; Y. Zaouter; X. Delen; M. Hanna; E. Mottay; P. Georges

doi:10.1364/OL.43.002252

Optics Letters
Vol. 43,
Issue 10,
pp. 2252-2255
(2018)
•https://doi.org/10.1364/OL.43.002252

Nonlinear pulse compression based on a gas-filled multipass cell

L. Lavenu, M. Natile, F. Guichard, Y. Zaouter, X. Delen, M. Hanna, E. Mottay, and P. Georges

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L. Lavenu, M. Natile, F. Guichard, Y. Zaouter, X. Delen, M. Hanna, E. Mottay, and P. Georges, "Nonlinear pulse compression based on a gas-filled multipass cell," Opt. Lett. 43, 2252-2255 (2018)

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Abstract

We demonstrate nonlinear temporal compression of a high-energy Yb-doped fiber laser source in a multipass cell filled with argon. The 160 μJ 275 fs input pulses are compressed down to 135 μJ 33 fs at the output, corresponding to an overall transmission of 85%. We also analyze the output beam, revealing essentially no space-time couplings. We believe this technique can be scalable to higher pulse energies and shorter pulse durations, enabling access to a wider parameter range for a large variety of ultrafast laser sources.

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Quantity	Unit	Laser	Cell
$Δ τ$	fs	275	33
$E$	μJ	160	135
$P_{peak}$	MW	485	3250
$P 2 P_{RMS}$	%	1.13	1.2
$σ_{RMS}$	%	0.14	0.3
$Δ τ_{RMS}$	%	—	1.1
PER	dB	30	22.8
$⟨ M^{2} ⟩$	—	1.15	1.2
$θ_{RMS}$	μrad	10	10

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