I. Colomb de Daunant scite author profile

2014 On présente ici une recherche semi-empirique des potentiels du dimère Ne*2, pour les états se dissociant en Ne(3P0,2) + Ne(1S0). Partant des potentiels ab initio calculés par Cohen et Schneider, on a déterminé une modification 2014 aussi faible que possible et restreinte au seul domaine des distances intermédiaires (4-10 u.a.) 2014 conduisant à un accord amélioré de la théorie et des expériences effectuées aux énergies thermiques. La modification proposée n'affecte que l'état 303A3u+. Il en résulte, après diagonalisation de l'interaction spin-orbite, des diminutions homógènes des potentiels 0-u , 1u(3P2) et 0-u(3P0). La bosse présente sur les deux premiers se trouve ainsi abaissée (de 108 à 21 meV), ce qui donne un accord satisfaisant avec les expériences effectuées sur la collision Ne(3P2)-Ne(1S0), particulièrement pour ce qui est de l'effet arc-en-ciel. L'élargissement imposé au puits 1u se trouve confirmé par le spectre d'émission de l'excimère. Aux énergies inférieures à 80 meV, la collision Ne(3P0)-Ne(1S0) est considérée comme purement élastique. Aux énergies supérieures, l'intervention de couplages dynamiques provoque une perturbation de la section efficace élastique, et l'apparition du processus superélastique: 3P0~1,2. On interprète ces deux effets en utilisant un modèle à deux états. Abstract. 2014 A semi-quantal interpretation of the Ne*2 potentials, for states dissociating into Ne(2p5 3s, 3P0,2) + Ne(2p6, 1S0) is presented. Starting from the ab initio potentials calculated by Cohen and Schneider, one determines a modification 2014 as small as possible and confined to the intermediate distance range (4-10 a.u.) 2014 yielding a better agreement between theory and experiment in the thermal energy range. The proposed modification affects only the 303A3+u state. After the diagonalization of the spin-orbit interaction, it results in consistent diminutions of the 0-u-1u(3P2) and 0-u(3P0) potentials. The hump of the two former states is lowered (21 meV instead of 108 meV) which gives good agreement with experiments on the Ne(3P2)-Ne(1S0) collision, especially for the resulting rainbow effect. The widening imposed on the 1u-well is confirmed by the excimer emission spectra. At energies below 80 meV, the Ne(3P0) + Ne(1S0) collision is considered as purely elastic. Above this energy, dynamical couplings induce a perturbation of the elastic differential cross section and the 3P0~1,2 superelastic process. These latter effects are interpreted by using a simplified 2-state model.

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Ar*(3p5 4s, 3P0,2) on Ar(3p6, 1S0) collisions at thermal energies

Robert

Bocvarski

Daunant

et al. 1984

J. Phys. France

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Fine-Structure Transition in Ne(P03) on Ne(
Daunant
¹
,
Vassilev
²
,
Dumont
³

et al. 1981
Phys. Rev. Lett.
14
0
4
0
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The co His ion-induced exothermic fine-structure transition Ne( 3 P 0 )-Ne( 3 P 2 ) has been observed in a crossed-effusive-beam experiment, by measuring the time of flight of metastable atoms scattered perpendicularly to the incident-beam plane. In this direction, the elastic scattering is kinematically discriminated. The identification of the transition is achieved by pumping 3 P 0 or 3 P 2 levels with a cw dye laser.

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Differential measurements on elastic and rotationally inelastic Ne*( 3P0,2)-H2 collisions at thermal energies

et al. 1985

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2014 On décrit une expérience de faisceaux croisés dans laquelle la sélection en vitesse est obtenue au moyen d'une technique de double hachage. La résolution est suffisante pour séparer les collisions Ne*(2p53s, 3P0,2)-H2 accompagnées d'excitation rotationnelle, de celles qui sont purement élastiques. On donne les sections efficaces différentielles mesurées à 67 meV, dans le référentiel du centre de masse, pour les collisions élastiques (J = 0 ~ J = 0) et rotationnellement inélastiques (J = 0 ~ J = 2). Abstract. 2014 A velocity selected crossed beam experiment, using a double chopping technique, is described. Its resolution is good enough to discriminate rotationally inelastic Ne*(2p53s, 3P0,2) on H2 collisions from purely elastic ones. Elastic (0 ~ 0) and inelastic (0 ~ 2) differential cross sections in the C.M. frame are given, for a relative energy of 67 meV.

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