Measurement of the cavity dispersion in quantum cascade lasers using subthreshold luminescence
Barbara Schneider, Jérôme Faist

TL;DR
This paper introduces a method to measure cavity dispersion in quantum cascade lasers using subthreshold luminescence, improving laser frequency comb design.
Contribution
A novel technique for measuring modal refractive index dispersion in quantum cascade lasers using subthreshold luminescence analysis.
Findings
Apodization and zero-padding significantly affect subthreshold luminescence measurements.
Different cold-cavity dispersion profiles influence the lasing state of the laser.
The method provides a comprehensive guide for determining cavity dispersion in Fabry–Pérot quantum cascade lasers.
Abstract
The measurement of the cavity dispersion is a key ingredient in the characterization of a laser frequency comb due to its fundamental role in predicting the multimode laser dynamics. In this work, we discuss the measurement of the modal refractive index dispersion in quantum cascade lasers obtained through the analysis of their sub-threshold luminescence measured using Fourier-transform spectrometers. In particular, we demonstrate the effects of apodization and zero-padding. Finally, we use selected examples to show the effects of different cold-cavity dispersion profiles on the lasing state of the laser. Our results provide a comprehensive guide for determining the cavity dispersion of Fabry–Pérot quantum cascade lasers, which is essential for designing high-performance frequency combs.
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Taxonomy
TopicsSpectroscopy and Laser Applications · Advanced Fiber Laser Technologies · Photonic Crystal and Fiber Optics
