Broadband and flat-baseline dual-comb cavity mode dispersion spectroscopy using fiber-based frequency combs

Abstract

We demonstrate broadband dual-comb cavity mode dispersion spectroscopy using mode-locked erbium-fiber frequency combs and a length-tunable optical cavity. The flat baseline and low-noise characteristics of cavity-mode-dispersion spectroscopy, combined with the broadband coverage of fiber frequency combs, provide highly precise spectral profiles that are difficult to obtain with conventional dual-comb spectroscopy. We measured the entire ν1 + ν3 band of acetylene in the 1.5~μm region. The simultaneous fitting of multiple transitions agreed well with the measured spectra, yielding a relative standard deviation of 0.27 % for the retrieved acetylene pressure and a spectral fluctuation corresponding to an absorption coefficient of 1.4× 10-6~cm-1. These results reveal the high precision achievable with the present method. Further sensitivity improvements are expected with a higher-finesse cavity.