The déformation of the wave functions of a diatomic molecule in an electric field is studied using an expansion of normalized spherical harmonies. The expansion coefficients as well as the eigenvalues, have been computed introducing the first twenty four degenerated states for the unperturbed rotator. The wave function evolution vs. the external field strength is described in a graphical representation. Matrix elements for the dipole moment operator have also been calculated.On étudie la déformation des fonctions d'onde d'une molécule diatomique plongée dans un champ électrique uniforme, à l'aide d'un développement dans la base des harmoniques sphériques normalisées. Le calcul des coefficients du développement, ainsi que celui des valeurs p...
We study a general problem of the translational/rotational/vibrational/electronic dynamics of a diat...
Author Institution:Diatomic molecular states are normally characterized by the product wavefunctions...
Author Institution: Laboratoire de Chimie Physique Mol\'{e}culaire (LCPM), Ecole Polytechnique F\'{e...
The déformation of the wave functions of a diatomic molecule in an electric field is studied using a...
Author Institution: Department of Physics, University of British ColombiaThe expansion of the electr...
This research was supported by the National Science Foundation. Peter L. Willson is N.A.S.A. Trainee...
Author Institution: Department of Physics, Battelle Memorial Institute; Department of Chemistry, The...
The derivation of the canonical functions of vibration is considered for a numerical potential of a ...
A new method to determine the electronic potential of a diatomic molecule is presented. It uses only...
We present a computer program to calculate the quantised rotational and hyperfine energy levels of ...
We prove that the study of the vibrational eigenfunctions of a diatomic molecule is reduced to that ...
The effect of rotation on the vibration-rotational wavefunction ψ vJ of a diatomic molecule is consi...
This paper is devoted to the study of the structure of the average potential acting on a diatomic po...
An « eigenvalue equation » is given for the radial Schroedinger equation for any electronic potentia...
For molecules belonging to the different symmetry groups, the dipole moment is developed in terms of...
We study a general problem of the translational/rotational/vibrational/electronic dynamics of a diat...
Author Institution:Diatomic molecular states are normally characterized by the product wavefunctions...
Author Institution: Laboratoire de Chimie Physique Mol\'{e}culaire (LCPM), Ecole Polytechnique F\'{e...
The déformation of the wave functions of a diatomic molecule in an electric field is studied using a...
Author Institution: Department of Physics, University of British ColombiaThe expansion of the electr...
This research was supported by the National Science Foundation. Peter L. Willson is N.A.S.A. Trainee...
Author Institution: Department of Physics, Battelle Memorial Institute; Department of Chemistry, The...
The derivation of the canonical functions of vibration is considered for a numerical potential of a ...
A new method to determine the electronic potential of a diatomic molecule is presented. It uses only...
We present a computer program to calculate the quantised rotational and hyperfine energy levels of ...
We prove that the study of the vibrational eigenfunctions of a diatomic molecule is reduced to that ...
The effect of rotation on the vibration-rotational wavefunction ψ vJ of a diatomic molecule is consi...
This paper is devoted to the study of the structure of the average potential acting on a diatomic po...
An « eigenvalue equation » is given for the radial Schroedinger equation for any electronic potentia...
For molecules belonging to the different symmetry groups, the dipole moment is developed in terms of...
We study a general problem of the translational/rotational/vibrational/electronic dynamics of a diat...
Author Institution:Diatomic molecular states are normally characterized by the product wavefunctions...
Author Institution: Laboratoire de Chimie Physique Mol\'{e}culaire (LCPM), Ecole Polytechnique F\'{e...