Enhanced multichannel dual-comb spectroscopy of complex systems

Abstract

A multichannel dual-comb spectroscopy (DCS) approach for high-resolution, broadband spectral measurements is presented, demonstrating its effectiveness in studying complex atomic systems. By implementing a photodetector array, we enhance DCS capabilities, addressing the fundamental trade-off between signal-to-noise ratio (SNR) and spectral coverage. To resolve ambiguities in frequency conversion, we introduced a relative offset in the radio frequency (RF) comb teeth, ensuring accurate spectral reconstruction. As a proof of concept, the absorption spectrum of samarium (Sm) vapor is investigated over a 52nm range, and several previously unreported absorption lines are detected. This is a step toward "Spectroscopy 2.0", enabling massively parallel spectroscopic measurements (including those at >100 T magnetic fields) crucial for atomic physics and fundamental interactions research.

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