For computational treatment of rotationally inelastic scattering of molecules, we propose to use the mixed quantum/classical theory, MQCT. The old idea of treating translational motion classically, while quantum mechanics is used for rotational degrees of freedom, is developed to the new level and is applied to Na + N2 collisions in a broad range of energies. Comparison with full-quantum calculations shows that MQCT accurately reproduces all, even minor, features of energy dependence of cross sections, except scattering resonances at very low energies. The remarkable success of MQCT opens up wide opportunities for computational predictions of inelastic scattering cross sections at higher temperatures and/or for polyatomic molecules and heav...
A hierarchy of approximate methods is proposed for solving the equations of motion within a framewor...
The mixed quantum/classical theory (MQCT) formulated in the space-fixed reference frame is used to c...
A mixed quantum/classical methodology and an efficient computer code, named MQCT, were developed to ...
For computational treatment of rotationally inelastic scattering of molecules, we propose to use the...
A mixed quantum/classical approach to inelastic scattering (MQCT) is developed in which the relative...
The mixed quantum/classical theory (MQCT) for rotationally inelastic scattering developed recently [...
Theoretical foundation is laid out for description of permutation symmetry in the inelastic scatteri...
An efficient and accurate mixed quantum/classical theory approach for computational treatment of ine...
The mixed quantum/classical theory (MQCT) for inelastic molecule-atom scattering developed recently ...
A mixed quantum/classical theory (MQCT) for the inelastic collision of two asymmetric-top rotor mole...
It is shown that the mixed quantum/classical theory (MQCT) for the description of molecular scatteri...
The mixed quantum classical theory, MQCT, for inelastic scattering of two molecules is developed, in...
We formulated the mixed quantum/classical theory for rotationally and vibrationally inelastic scatte...
An efficient and accurate mixed quantum/classical theory approach for computational treatment of ine...
A program named MQCT is developed for calculations of rotationally and vibrationally inelastic scatt...
A hierarchy of approximate methods is proposed for solving the equations of motion within a framewor...
The mixed quantum/classical theory (MQCT) formulated in the space-fixed reference frame is used to c...
A mixed quantum/classical methodology and an efficient computer code, named MQCT, were developed to ...
For computational treatment of rotationally inelastic scattering of molecules, we propose to use the...
A mixed quantum/classical approach to inelastic scattering (MQCT) is developed in which the relative...
The mixed quantum/classical theory (MQCT) for rotationally inelastic scattering developed recently [...
Theoretical foundation is laid out for description of permutation symmetry in the inelastic scatteri...
An efficient and accurate mixed quantum/classical theory approach for computational treatment of ine...
The mixed quantum/classical theory (MQCT) for inelastic molecule-atom scattering developed recently ...
A mixed quantum/classical theory (MQCT) for the inelastic collision of two asymmetric-top rotor mole...
It is shown that the mixed quantum/classical theory (MQCT) for the description of molecular scatteri...
The mixed quantum classical theory, MQCT, for inelastic scattering of two molecules is developed, in...
We formulated the mixed quantum/classical theory for rotationally and vibrationally inelastic scatte...
An efficient and accurate mixed quantum/classical theory approach for computational treatment of ine...
A program named MQCT is developed for calculations of rotationally and vibrationally inelastic scatt...
A hierarchy of approximate methods is proposed for solving the equations of motion within a framewor...
The mixed quantum/classical theory (MQCT) formulated in the space-fixed reference frame is used to c...
A mixed quantum/classical methodology and an efficient computer code, named MQCT, were developed to ...
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