Molecular near-infrared transitions determined with sub-kHz accuracy

Abstract

Precise molecular transition frequencies are of great interest in the test of fundamental physics and also in various applications. Two well isolated ro-vibrational transitions of 12C16O at 1.57 μm, R(9) and R(10) in the second overtone band molecule, were measured by a comb-locked cavity ring-down spectrometer. Despite the weakness of the lines (Einstein coefficient A 0.008 s-1), Lamb-dip spectra were recorded with a signal-to-noise ratio over 1000, and the line positions were determined to be 191 360 212 763.7 and 191 440 612 664.8 kHz respectively, with an uncertainty of 0.5 kHz (δ/=2.6× 10-12). The present work demonstrated the possibility to explore extensive molecular lines in the near-infrared with sub-kHz accuracy.