Add to ORKGA mixed quantum-classical method for calculating product energy partitioning based on a reaction path Hamiltonian is presented and applied to HF elimination from fluoroethane. The goal is to describe the effect of the potential energy release on the product energies using a simple model of quantized transverse vibrational modes coupled to a classical reaction path via the path curvature. Calculations of the minimum energy path were done at the B3LYP/6-311++G(2d,2p) and MP2/6-311++G** levels of theory, followed by energy-partitioning dynamics calculations. The results for the final HF vibrational state distribution were found to be in good qualitative agreement with both experimental studies and quasiclassical trajectory simulations. © 2008 ...
We report in this paper a quantum dynamics study for the reaction H+NH3 -> NH2+H-2 on the potential ...
We survey the recent advances in theoretical understanding of quantum state resolved dynamics, using...
I will present some of our recent work on theoretical studies of chemical reaction dynamics at a qua...
The dynamics of four-centered HCl elimination from chloroethane are studied using a mixed quantum-cl...
State-resolved integral and differential cross sections have been calculated for the F + H2 (v = 0) ...
The termolecular interaction among three hydrogen fluoride molecules has been modeled as taking plac...
Using the arrested relaxation variant of the infrared chemiluminescence technique, experimental stud...
The title reaction has a great deal of intriguing characters and provides energy for a chemical lase...
The quasiclassical trajectory method based on the extended London-Eyring-Polanyi-Sato potential ener...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...
The dynamics of the title reaction are investigated using both time-dependent wave packet quantum sc...
Recently, the authors developed a new method to construct a two-dimensional potential energy surface...
In this work we present a dynamical study of the H + HeH+ → H2+ + He reaction in a collision energy ...
Understanding reactivity is a central goal of chemical physics, and investigations in the condensed ...
The dynamics of the abstraction reaction of H atoms with the cyclopropane molecule is studied using ...
We report in this paper a quantum dynamics study for the reaction H+NH3 -> NH2+H-2 on the potential ...
We survey the recent advances in theoretical understanding of quantum state resolved dynamics, using...
I will present some of our recent work on theoretical studies of chemical reaction dynamics at a qua...
The dynamics of four-centered HCl elimination from chloroethane are studied using a mixed quantum-cl...
State-resolved integral and differential cross sections have been calculated for the F + H2 (v = 0) ...
The termolecular interaction among three hydrogen fluoride molecules has been modeled as taking plac...
Using the arrested relaxation variant of the infrared chemiluminescence technique, experimental stud...
The title reaction has a great deal of intriguing characters and provides energy for a chemical lase...
The quasiclassical trajectory method based on the extended London-Eyring-Polanyi-Sato potential ener...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...
The dynamics of the title reaction are investigated using both time-dependent wave packet quantum sc...
Recently, the authors developed a new method to construct a two-dimensional potential energy surface...
In this work we present a dynamical study of the H + HeH+ → H2+ + He reaction in a collision energy ...
Understanding reactivity is a central goal of chemical physics, and investigations in the condensed ...
The dynamics of the abstraction reaction of H atoms with the cyclopropane molecule is studied using ...
We report in this paper a quantum dynamics study for the reaction H+NH3 -> NH2+H-2 on the potential ...
We survey the recent advances in theoretical understanding of quantum state resolved dynamics, using...
I will present some of our recent work on theoretical studies of chemical reaction dynamics at a qua...