Atomistic Simulations of CO Vibrations in Ices Relevant to Astrochemistry |
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Authors: | Nuria Plattner Markus Meuwly Prof |
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Institution: | Department of Chemistry, University of Basel, Klingelbergstrasse 80, 4056 Basel, Switzerland, Fax: (+41)?61?267?48?55, E‐Mail: |
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Abstract: | The experimental absorption band of carbon monoxide (CO) in mixed ices has been extensively studied in the past. The astrophysical interest in this band is related to its characteristic shape, which appears to depend on the surrounding ice structure. Herein, molecular dynamics simulations are carried out to analyze the relationship between the structure of the ice and the infrared (IR) spectrum of embedded CO molecules at different concentrations. Instead of conventional force fields, anharmonic potentials are used for the bonded interactions. The electrostatic interactions are more accurately described by means of fluctuating atomic multipole moments (up to quadrupole). The experimentally observed splitting of the CO absorption band (gas phase: 2143 cm?1) into a blue‐ (2152 cm?1) and a red‐shifted (2138 cm?1) signal is also found in the simulations. Complementary atomistic simulations allow us to relate the spectra with the structural features. The distinction between interstitial and substitutional CO molecules as the origin of this splitting is found to be qualitatively correct. However, at increasing CO concentrations, additional effects—such as mutual interactions between CO molecules—become important, and the simplistic picture needs to be revised. |
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Keywords: | astrochemistry distributed multipole analysis IR spectroscopy interstellar ice molecular dynamics |
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