(16) Production(s) de BOSSION D.
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Simulations numériques de systèmes hamiltonien astrophysiques : collisions atome-molécule et orbites stellaires
Auteur(s): Bossion D.
(Affiches/Poster)
Rencontre utilisateurs du centre de calcul MESO@LR (Montpellier, FR), 2018-12-04Texte intégral en Openaccess : |
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Quasi-classical and quantum study of atom-diatom collisions for high temperature regime Auteur(s): Bossion D., Scribano Y.
Conference: Physique et Chimie du Milieu Interstellaire (Marseille, FR, 2018-06-25) |
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Collisional excitation of H$_2$ by H atoms at high temperature for astrophysical applications Auteur(s): Bossion D., Scribano Y.
Conference: 22nd European Conference on the Dynamics of Molecular Systems (Dinard, FR, 2018-08-26) |
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Collisional excitation of H$_2$ at high temperatures Auteur(s): Bossion D., Scribano Y.
Conference: PICS Collisional Excitation of Hydrides in the InterStellar Medium meeting (Grenoble, FR, 2018-08-27) |
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Simulations numériques des collisions atome-molécule pour l'astrophysique Auteur(s): Bossion D., Scribano Y. (Affiches/Poster) Rencontre utilisateurs du centre de calcul MESO@LR (Montpellier, FR), 2018-03-05 |
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State-to-state quasi-classical trajectory study of the D + H$_2$ collision for high temperature astrophysical applications 
Auteur(s): Bossion D., Scribano Y. (Article) Publié: Journal Of Chemical Physics, vol. 150 p.084301 (2019) |
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The low temperature D$^+$ + H$_2$ → HD + H$^+$ reaction rate coefficient: a ring polymer molecular dynamics and quasi-classical trajectory study Auteur(s): Bhowmick Somnath, Bossion D., Scribano Y., Suleimanov Yury (Article) Publié: Physical Chemistry Chemical Physics, vol. 20 p.26752 (2018) |