Line shapes and intensities of carbon monoxide transitions in the (3→0) and (4→1) bands

Reed, Zachary

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https://hdl.handle.net/2142/97193 Copy

Description

Title

Line shapes and intensities of carbon monoxide transitions in the (3→0) and (4→1) bands

Author(s)

Reed, Zachary

Contributor(s)

• Hodges, Joseph T.
• Polyansky, Oleg

Issue Date

2017-06-21

Keyword(s)

• Lineshapes
• Collisional effects

Abstract

We have measured several carbon monoxide transitions in the (3$rightarrow$0) and (4$rightarrow$1) band using frequency stabilized cavity ringdown spectroscopy (FS-CRDS). The measured transitions are compared to the line strength values in HITRAN 2012 [1], those determined by Wojtewitz et al [2], and to theoretical calculations. The cavity length is actively locked to an iodine stabilized HeNe laser, providing long term frequency stability of 10 kHz and is linked to a self-referenced, octave-spanning frequency comb. The temperature of the optical cavity is actively regulated at the mK level, and the pressure measurements are SI-traceable. The sample is a NIST calibrated reference mixture of 11.98575(95)% CO in N$_{2}$. _x000d_ The absorption spectra are modeled using the Hartmann-Tran profile (HTP). The SNR in these spectra may exceed 10,000:1, which necessitates including the effects of speed dependence, collisional narrowing, and correlation between velocity-changing and dephasing collisions. _x000d_ _x000d_ The relative uncertainties of the line strengths calculated in this study are better than 0.1%. There are systematic differences on the 1% level for $^{12}$CO against both HITRAN [1] and the previous work by Wojtewitz et al [2]. The measurement uncertainties are nearly an order of magnitude lower than previous results. Additionally, the relative uncertainties in the integrated areas of selected $^{12}$CO and $^{13}$CO transitions are less than 0.006% and 0.02%, respectively, providing an excellent test case for determination of isotope ratios by direct use of theoretical line intensity calculations. _x000d_ _x000d_ $newline$_x000d_ [1] Wojtewicz, S., et al., J Quant Spect and Rad Trans,2013. 130: p.191-200. $newline$_x000d_ [2]Rothman, L.S., et al., Journal of Quant Spect and Rad Trans, 2013. 130: p. 4-50._x000d_

Publisher

International Symposium on Molecular Spectroscopy

Type of Resource

text

Language

eng

Permalink

http://hdl.handle.net/2142/97193

DOI

https://doi.org/10.15278/isms.2017.WJ04

Copyright and License Information

Copyright 2017 Zachary Reed

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