Ultra-broadband long-wave-infrared pulse production using a chirped-pulse difference-frequency generation

H. Huang; X. Xiao; X. Xiao; M. Burger; M. Burger; J. Nees; J. Nees; I. Jovanovic; I. Jovanovic

doi:10.1364/OL.458405

Optics Letters
Vol. 47,
Issue 13,
pp. 3159-3162
(2022)
•https://doi.org/10.1364/OL.458405

Ultra-broadband long-wave-infrared pulse production using a chirped-pulse difference-frequency generation

H. Huang, X. Xiao, M. Burger, J. Nees, and I. Jovanovic

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H. Huang, X. Xiao, M. Burger, J. Nees, and I. Jovanovic, "Ultra-broadband long-wave-infrared pulse production using a chirped-pulse difference-frequency generation," Opt. Lett. 47, 3159-3162 (2022)

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- Ultrafast Optics
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About this Article
History
- Original Manuscript: March 16, 2022
- Revised Manuscript: May 19, 2022
- Manuscript Accepted: May 31, 2022
- Published: June 22, 2022

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Abstract

We present a broadband light source based on near-infrared chirped-pulse difference-frequency mixing that is suitable for seeding long-wave-infrared (LWIR) optical parametric chirped-pulse amplification (OPCPA). A nitrocellulose pellicle is used in a Ti:sapphire regenerative amplifier to generate dual-frequency output pulses, which are subsequently mixed in a 0.4-mm thick AgGaS₂ crystal. LWIR pulses with ∼1 µm full width at half maximum (FWHM) bandwidth centered at 10.5 µm are generated by mixing transform-limited pulses. Assisted by genetic algorithm optimization, the bandwidth is broadened to ∼3 µm FWHM within the 8–12 µm atmospheric transmission window. The seed source paves the path towards tabletop ultrafast terawatt-class passively carrier-envelope-phase stabilized OPCPA in the LWIR region.

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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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Abstract

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Optics Letters