Optical frequency comb Fourier transform spectroscopy of formaldehyde in the 1250 to 1390 cm-1 range: experimental line list and improved MARVEL analysis

Abstract

We use optical frequency comb Fourier transform spectroscopy to record high-resolution, low-pressure, room-temperature spectra of formaldehyde (H212C16O) in the range of 1250 to 1390 cm-1. Through line-by-line fitting, we retrieve line positions and intensities of 747 rovibrational transitions: 558 from the 6 band, 129 from the 4 band, and 14 from the 3 band, as well as 46 from four different hot bands. We incorporate the accurate and precise line positions (0.4 MHz median uncertainty) into the MARVEL (measured active vibration-rotation energy levels) analysis of the H2CO spectrum. This increases the number of MARVEL-predicted energy levels by 82 and of rovibrational transitions by 5382, and substantially reduces uncertainties of MARVEL-derived H2CO energy levels over a large range: from pure rotational levels below 200 cm-1 up to multiply excited vibrational levels at 6000 cm-1. This work is an important step toward filling the gaps in formaldehyde data in the HITRAN database.