Band profiles and band strengths in mixed H2O:CO ices

TL;DR

This study investigates how mixing H2O and CO ices affects their spectral band profiles and strengths, revealing interactions that influence astronomical ice measurements and offering new diagnostic tools.

Contribution

It provides the first detailed analysis of band strength variations in H2O:CO ices and compares these effects to H2O:CO2 mixtures, enhancing interpretation of astronomical ice spectra.

Findings

H2O band strengths decrease linearly with CO concentration

Free OH stretch band strength increases with CO mixing

CO fundamental band remains constant regardless of water concentration

Abstract

A laboratory study on the band profiles and band strengths of H2O in CO ice, and vice versa, is presented and interpreted in terms of two models. The results show that a mutual interaction takes place between the two species in the solid, which alters the band positions and band strengths. It is found that the band strengths of the H2O bulk stretch, bending and libration vibrational bands decrease linearly by a factor of up to 2 when the CO concentration is increased from 0 to 80%. By contrast, the band strength of the free OH stretch increases linearly. The results are compared to a recently performed quantitative study on H2O:CO2 ice mixtures. It is shown that for mixing ratios of 1:0.5 H2O:X and higher, the H2O bending mode offers a good tracer to distinguish between CO2 or CO in H2O ice. Additionally, it is found that the band strength of the CO fundamental remains constant when the water concentration is increased in the ice. The integrated absorbance of the 2152 cm-1 CO feature, with respect to the total integrated CO absorption feature, is found to be a good indicator of the degree of mixing of CO in the H2O:CO laboratory ice system. From the change in the H2O absorption band strength in laboratory ices upon mixing we conclude that astronomical water ice column densities on various lines of sight can be underestimated by up to 25% if significant amounts of CO and CO2 are mixed in.