Gas-phase microresonator-based comb spectroscopy without an external pump laser
Abstract
We present a novel approach to realize microresonator-comb-based high resolution spectroscopy that combines a fiber-laser cavity with a microresonator. Although the spectral resolution of a chip-based comb source is typically limited by the free spectral range (FSR) of the microresonator, we overcome this limit by tuning the 200-GHz repetition-rate comb over one FSR via control of an integrated heater. Our dual-cavity scheme allows for self-starting comb generation without the need for conventional pump-cavity detuning while achieving a spectral resolution equal to the comb linewidth. We measure broadband molecular absorption spectra of acetylene by interleaving 800 spectra taken at 250-MHz per spectral step using a 60-GHz-coarse-resolution spectrometer and exploits advances of integrated heater which can locally and rapidly change the refractive index of a microresonator with low electrical consumption (0.9 GHz/mW), which is orders of magnitude lower than a fiber-based comb. This approach offers a path towards a simple, robust and low-power consumption CMOS-compatible platform capable of remote sensing.
Cite
@article{arxiv.1806.01348,
title = {Gas-phase microresonator-based comb spectroscopy without an external pump laser},
author = {Mengjie Yu and Yoshitomo Okawachi and Chaitanya Joshi and Xingchen Ji and Michal Lipson and Alexander L. Gaeta},
journal= {arXiv preprint arXiv:1806.01348},
year = {2018}
}