Dispersion engineering of Quantum Cascade Lasers frequency combs
Abstract
Quantum cascade lasers are compact sources capable of generating frequency combs. Yet key characteristics - such as optical bandwidth and power-per-mode distribution - have to be improved for better addressing spectroscopy applications. Group delay dispersion plays an important role in the comb formation. In this work, we demonstrate that a dispersion compensation scheme based on a Gires-Tournois Interferometer integrated into the QCL-comb dramatically improves the comb operation regime, preventing the formation of high-phase noise regimes previously observed. The continuous-wave output power of these combs is typically 100 mW with optical spectra centered at 1330 cm (7.52 m) with 70 cm of optical bandwidth. Our findings demonstrate that QCL-combs are ideal sources for chip-based frequency comb spectroscopy systems.
Cite
@article{arxiv.1509.08856,
title = {Dispersion engineering of Quantum Cascade Lasers frequency combs},
author = {Gustavo Villares and Sabine Riedi and Johanna Wolf and Dmitry Kazakov and Martin J. Süess and Mattias Beck and Jérôme Faist},
journal= {arXiv preprint arXiv:1509.08856},
year = {2015}
}
Comments
13 pages, 7 figures