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Main Authors: Schiltz, L., Escribano, B., Caro, G. M. Muñoz, Cazaux, S., Olivares, C. del Burgo, Carrascosa, H., Boszhuizen, I., Díaz, C. González, Chen, Y. -J., Giuliano, B. M., Caselli, P.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.10605
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author Schiltz, L.
Escribano, B.
Caro, G. M. Muñoz
Cazaux, S.
Olivares, C. del Burgo
Carrascosa, H.
Boszhuizen, I.
Díaz, C. González
Chen, Y. -J.
Giuliano, B. M.
Caselli, P.
author_facet Schiltz, L.
Escribano, B.
Caro, G. M. Muñoz
Cazaux, S.
Olivares, C. del Burgo
Carrascosa, H.
Boszhuizen, I.
Díaz, C. González
Chen, Y. -J.
Giuliano, B. M.
Caselli, P.
contents The surfaces of icy moons are primarily composed of water ice that can be mixed with other compounds, such as carbon dioxide. The carbon dioxide (CO$_2)$ stretching fundamental band observed on Europa and Ganymede appears to be a combination of several bands that are shifting location from one moon to another. We investigate the cause of the observed shift in the CO$_2$ stretching absorption band experimentally. We also explore the spectral behaviour of CO$_2$ ice by varying the temperature and concentration.} %H$_2$O:CO$_2$ deposition ratios. We analyzed pure CO$_2$ ice and ice mixtures deposited at 10 K under ultra-high vacuum conditions using Fourier-transform infrared (FTIR) spectroscopy and temperature programmed desorption (TPD) experiments. Laboratory ice spectra were compared to JWST observation of Europa's and Ganymede's leading hemispheres. The simulated IR spectra were calculated using density functional theory (DFT) methods, exploring the effect of porosity in CO$_2$ ice. Pure CO$_2$ and CO$_2$-water ice show distinct spectral changes and desorption behaviours at different temperatures, revealing intricate CO$_2$ and H$_2$O interactions. The number of discernible peaks increases from two in pure CO$_2$ to three in CO$_2$-water mixtures.
format Preprint
id arxiv_https___arxiv_org_abs_2405_10605
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Characterization of carbon dioxide on Ganymede and Europa supported by experiments: Effects of temperature, porosity, and mixing with water
Schiltz, L.
Escribano, B.
Caro, G. M. Muñoz
Cazaux, S.
Olivares, C. del Burgo
Carrascosa, H.
Boszhuizen, I.
Díaz, C. González
Chen, Y. -J.
Giuliano, B. M.
Caselli, P.
Earth and Planetary Astrophysics
The surfaces of icy moons are primarily composed of water ice that can be mixed with other compounds, such as carbon dioxide. The carbon dioxide (CO$_2)$ stretching fundamental band observed on Europa and Ganymede appears to be a combination of several bands that are shifting location from one moon to another. We investigate the cause of the observed shift in the CO$_2$ stretching absorption band experimentally. We also explore the spectral behaviour of CO$_2$ ice by varying the temperature and concentration.} %H$_2$O:CO$_2$ deposition ratios. We analyzed pure CO$_2$ ice and ice mixtures deposited at 10 K under ultra-high vacuum conditions using Fourier-transform infrared (FTIR) spectroscopy and temperature programmed desorption (TPD) experiments. Laboratory ice spectra were compared to JWST observation of Europa's and Ganymede's leading hemispheres. The simulated IR spectra were calculated using density functional theory (DFT) methods, exploring the effect of porosity in CO$_2$ ice. Pure CO$_2$ and CO$_2$-water ice show distinct spectral changes and desorption behaviours at different temperatures, revealing intricate CO$_2$ and H$_2$O interactions. The number of discernible peaks increases from two in pure CO$_2$ to three in CO$_2$-water mixtures.
title Characterization of carbon dioxide on Ganymede and Europa supported by experiments: Effects of temperature, porosity, and mixing with water
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2405.10605