Optical Frequency Comb Fourier Transform Spectroscopy of 14N216O at 7.8 μm

Abstract

We use a Fourier transform spectrometer based on a compact mid-infrared difference frequency generation comb source to perform broadband high-resolution measurements of nitrous oxide, 14N216O, and retrieve line center frequencies of the 1 fundamental band and the 1 + 2 - 2 hot band. The spectrum spans 90 cm-1 around 1285 cm-1 with a sample point spacing of 3 × 10-4 cm-1 (9 MHz). We report line positions of 72 lines in the 1 fundamental band between P(37) and R(38), and 112 lines in the 1 + 2 - 2 hot band (split into two components with e/f rotationless parity) between P(34) and R(33), with uncertainties in the range of 90-600 kHz. We derive upper state constants of both bands from a fit of the effective ro-vibrational Hamiltonian to the line center positions. For the fundamental band, we observe excellent agreement in the retrieved line positions and upper state constants with those reported in a recent study by AlSaif et al. using a comb-referenced quantum cascade laser [J Quant Spectrosc Radiat Transf, 2018;211:172-178]. We determine the origin of the hot band with precision one order of magnitude better than previous work based on FTIR measurements by Toth [http://mark4sun.jpl.nasa.gov/n2o.html], which is the source of the HITRAN2016 data for these bands.