Highly coherent phase-lock of an 8.1 μ m quantum cascade laser to a turn-key mid-IR frequency comb
Abstract
A continuous-wave Fabry–Pérot quantum cascade laser (QCL) emitting at 8.1 μm operating in the single mode regime has been coherently phase locked to a turn-key low-noise commercial mid-Infrared (mid-IR) optical frequency comb. The stability of the comb used as a reference is transferred to the QCL resulting in an integrated residual phase error of 0.4 rad. The laser linewidth is narrowed by more than two orders of magnitude reaching sub-kHz level at 1 ms observation time, limited by the spectral purity of the mid-IR comb. Our experiment is an important step toward the development of both powerful and metrology-grade QCLs and fully stabilized QCL frequency comb and opens perspectives for precision measurements and frequency metrology in the mid-IR.
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2023-03-27-APL-Highly coherent phase-lock of an 8.1 µm quantum cascade laser to a turn-key mid-IR frequency comb.pdf (479.04 Ko)
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