The cross-sections for rotational transitions in a diatomic molecule due to collision with an atom were computed. An empirical relation is obtained that gives the dependence of cross-sections on the energy of the colliding system and the parameters of the interaction potential energy surface. The results are interpreted to investigate the mechanism of the rotational energy transfer process. The cross-sections are found to depend linearly on the torque, range of the potential, and the collision time. Depending on the variation in the location of classical turning point with change in energy, the cross-sections may increase or decrease with energy or cross-section versus energy curve may exhibit maxima or minima
Integral elastic and rotationally inelastic cross sections for HCl (Ji=0, 1)+Ar collisions at a coll...
An established method for constructing molecular potential energy surfaces by interpolation of ab in...
A close coupling quantum-mechanical calculation is performed for rotational energy transfer in a HD ...
A model for energy transfer in the collision between an atom and a highly excited target molecule ha...
The classical-mechanical equations of motion describing collisional energy transfer are converted to...
366-372Energy transfer in nonreactive collisions of atom-diatomic molecules has been studied in thre...
The anisotropic charge distribution of a molecule can easily induce a rotational transition in the m...
In Part I, the differential equations for molecular rotational–vibrational–translational energy tran...
The theoretical model of collisional quantum interference (CQI) in intramolecular rotational energy ...
Abstract. Atom-diatomic molecule collision processes are of particular importance in nonequilibrium ...
We have used the methods of quasi-classical dynamics to compute energy transfer properties of non-re...
Author Institution: Department of Chemistry, The University of Texas at AustinCollision broadening o...
A theory of vibrational energy transfer using long-range multipolar interaction has been extended to...
In this paper we present the results of model calculations on the rotational motion of linear molecu...
We report calculated differential, integral, and momentum-transfer cross sections for rotational exc...
Integral elastic and rotationally inelastic cross sections for HCl (Ji=0, 1)+Ar collisions at a coll...
An established method for constructing molecular potential energy surfaces by interpolation of ab in...
A close coupling quantum-mechanical calculation is performed for rotational energy transfer in a HD ...
A model for energy transfer in the collision between an atom and a highly excited target molecule ha...
The classical-mechanical equations of motion describing collisional energy transfer are converted to...
366-372Energy transfer in nonreactive collisions of atom-diatomic molecules has been studied in thre...
The anisotropic charge distribution of a molecule can easily induce a rotational transition in the m...
In Part I, the differential equations for molecular rotational–vibrational–translational energy tran...
The theoretical model of collisional quantum interference (CQI) in intramolecular rotational energy ...
Abstract. Atom-diatomic molecule collision processes are of particular importance in nonequilibrium ...
We have used the methods of quasi-classical dynamics to compute energy transfer properties of non-re...
Author Institution: Department of Chemistry, The University of Texas at AustinCollision broadening o...
A theory of vibrational energy transfer using long-range multipolar interaction has been extended to...
In this paper we present the results of model calculations on the rotational motion of linear molecu...
We report calculated differential, integral, and momentum-transfer cross sections for rotational exc...
Integral elastic and rotationally inelastic cross sections for HCl (Ji=0, 1)+Ar collisions at a coll...
An established method for constructing molecular potential energy surfaces by interpolation of ab in...
A close coupling quantum-mechanical calculation is performed for rotational energy transfer in a HD ...