Near-infrared absorption and radiative cooling of naphthalene dimers (C$_{10}$H$_8$)$_2^+$ - Équipe SIMUL « Simulation » du CIMAP
Article Dans Une Revue Physical Chemistry Chemical Physics Année : 2024

Near-infrared absorption and radiative cooling of naphthalene dimers (C$_{10}$H$_8$)$_2^+$

Mingchao Ji
Henning Zettergren
Mark H Stockett

Résumé

The radiative cooling of naphthalene dimer cations, (C$_{10}$H$_8$)$_2^+$ was studied experimentally through action spectroscopy using two different electrostatic ion-beam storage rings, DESIREE in Stockholm and Mini-Ring in Lyon. The spectral characteristics of the charge resonance (CR) band were observed to vary significantly with storage time of up to 30 seconds in DESIREE. In particular, the position of the CR band shifts to the blue, with specific times (inverse of rates) of 0.64 s and 8.0 s in the 0-5 s and 5-30 s storage time ranges, respectively. Such long-time scales evoke that the internal energy distribution of the stored ions evolves by vibrational radiative cooling, which is consistent with the absence of fast radiative cooling via recurrent fluorescence for (C$_{10}$H$_8$)$_2^+$. Density Functional based Tight Binding calculations with local excitations and Configuration Interactions (DFTB-EXCI) were used to simulate the absorption spectrum for ion temperatures between 10 and 500 K. The evolution of the band width and position with temperature is in qualitative agreement with the experimental findings. Furthermore, these calculations yielded linear temperature dependencies for both the shift and the broadening. Combining the relation between the CR band position and the ion temperature with the results of the statistical model, we demonstrate that the observed blue shift can be used to determine the radiative cooling rate of (C$_{10}$H$_8$)$_2^+$.
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mardi 24 décembre 2024
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Dates et versions

hal-04621426 , version 1 (24-06-2024)

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Jérôme Bernard, Serge Martin, Abdulaziz Al-Mogeeth, Christine Joblin, Mingchao Ji, et al.. Near-infrared absorption and radiative cooling of naphthalene dimers (C$_{10}$H$_8$)$_2^+$. Physical Chemistry Chemical Physics, 2024, 26 (27), pp.18571-18583. ⟨10.1039/D4CP01200C⟩. ⟨hal-04621426⟩
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