Mid-infrared frequency combs at 10 GHz

Abstract

We demonstrate mid-infrared (MIR) frequency combs at 10 GHz repetition rate via intra-pulse difference-frequency generation (DFG) in quasi-phase-matched nonlinear media. Few-cycle pump pulses ( ≲ 15 f s , 100 pJ) from a near-infrared electro-optic frequency comb are provided via nonlinear soliton-like compression in photonic-chip silicon-nitride waveguides. Subsequent intra-pulse DFG in periodically poled lithium niobate waveguides yields MIR frequency combs in the 3.1–4.8 µm region, while orientation-patterned gallium phosphide provides coverage across 7–11 µm. Cascaded second-order nonlinearities simultaneously provide access to the carrier–envelope-offset frequency of the pump source via in-line f - 2 f nonlinear interferometry. The high-repetition rate MIR frequency combs introduced here can be used for condensed phase spectroscopy and applications such as laser heterodyne radiometry.

Document Details

Document Type: Pub Defense Publication
Publication Date: Jun 29, 2020
Source ID: 10.1364/ol.391651

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Abijith S. Kowligy
Alexander J. Lind
Daniel D Hickstein
David R Carlson
Henry Timmers
Peter G Schunemann
Scott A. Diddams
Scott B. Papp

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Air Force Office of Scientific Research
Defense Advanced Research Projects Agency
National Institute of Standards and Technology

Mid-infrared frequency combs at 10 GHz

Abstract

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