Flux and fluence effects on the vacuum-UV photodesorption and photoprocessing of CO<sub>2</sub> ices - Sorbonne Université
Journal Articles Physical Chemistry Chemical Physics Year : 2024

Flux and fluence effects on the vacuum-UV photodesorption and photoprocessing of CO2 ices

Effets de flux et de fluence sur la photodesorption VUV et le photoprocessing de glaces de CO2

Abstract

CO2 is a major component of the icy mantles surrounding dust grains in planet and star formation regions. Understanding its photodesorption is crucial for explaining gas phase abundances in the coldest environments of the interstellar medium irradiated by vacuum-UV (VUV) photons. Photodesorption yields determined experimentally from CO2 samples grown at low temperatures (T = 15 K) have been found to be very sensitive to experimental methods and conditions. Several mechanisms have been suggested for explaining the desorption of CO2, O2 and CO from CO2 ices. In the present study, the cross-sections characterizing the dynamics of photodesorption as a function of photon fluence (determined from released molecules in the gas phase) and of ice composition modification (determined in situ in the solid phase) are compared for the first time for different photon flux conditions (from 7.3 × 1012 photon per s cm−2 to 2.2× 1014 photon per s cm−2) using monochromatic synchrotron radiation in the VUV range (on the DESIRS beamline at SOLEIL). This approach reveals that CO and O2 desorptions are decorrelated from that of CO2. CO and O2 photodesorption yields depend on photon flux conditions and can be linked to surface chemistry. In contrast, the photodesorption yield of CO2 is independent of the photon flux conditions and can be linked to bulk ice chemical modification, consistently with indirect desorption induced by an electronic transition (DIET) process.

Dates and versions

hal-04692161 , version 1 (09-09-2024)

Identifiers

Cite

Antoine Hacquard, Daniela Torres-Díaz, Romain Basalgète, Delfina Toulouse, Géraldine Féraud, et al.. Flux and fluence effects on the vacuum-UV photodesorption and photoprocessing of CO2 ices. Physical Chemistry Chemical Physics, 2024, 26 (27), pp.18741-18752. ⟨10.1039/D4CP01177E⟩. ⟨hal-04692161⟩
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