State-to-state exact quantum probabilities of the N + N2exchange reaction have been calculated on the recently proposed L4 potential energy surface fitted to high level ab initio points using full-dimensional time-independent quantum techniques. Thermal rate coefficient values calculated on L4 were found not to differ from those calculated on a previously proposed potential energy surface. On the contrary, state-specific reaction probabilities calculated on the two surfaces are shown to differ significantly. Arguments for attributing the difference to specific features of the considered potential energy surfaces are provided. © 2009 the Owner Societies
The title reaction is thought to be responsible for the production of molecular nitrogen in interste...
We present nonadiabatic quantum dynamical calculations on the two coupled potential energy surfaces ...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...
State-to-state exact quantum probabilities of the N + N2exchange reaction have been calculated on th...
Full-dimensional quantum time-dependent calculations of the detailed probabilities of the N + N2 rea...
Ellerbrock R, Manthe U. H+CH4 -> H-2 + CH3 initial state-selected reaction probabilities on diffe...
Zero total angular momentum exact quantum calculations of the probabilities of the N+N2 reaction hav...
The N + N2 exchange rate is calculated using a time-dependent quantum dynamics method on a newly det...
Manthe U. Accurate calculations of reaction rates: predictive theory based on a rigorous quantum tra...
Wu T, Werner HJ, Manthe U. Accurate potential energy surface and quantum reaction rate calculations ...
Comparisons are made between potential energy surfaces (PES) for N2 + N and N2 + N2 collisions and b...
Andersson S, Nyman G, Arnaldsson A, Manthe U, Jonsson H. Comparison of Quantum Dynamics and Quantum ...
Schiffel G, Manthe U, Nyman G. Full-Dimensional Quantum Reaction Rate Calculations for H+CH4 -> H...
We report rigorous quantum dynamics studies of the Cl+H-2 reaction. The time-dependent wave packet c...
Eight-dimensional (8D) transition-state wave packet simulations have been performed on two latest po...
The title reaction is thought to be responsible for the production of molecular nitrogen in interste...
We present nonadiabatic quantum dynamical calculations on the two coupled potential energy surfaces ...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...
State-to-state exact quantum probabilities of the N + N2exchange reaction have been calculated on th...
Full-dimensional quantum time-dependent calculations of the detailed probabilities of the N + N2 rea...
Ellerbrock R, Manthe U. H+CH4 -> H-2 + CH3 initial state-selected reaction probabilities on diffe...
Zero total angular momentum exact quantum calculations of the probabilities of the N+N2 reaction hav...
The N + N2 exchange rate is calculated using a time-dependent quantum dynamics method on a newly det...
Manthe U. Accurate calculations of reaction rates: predictive theory based on a rigorous quantum tra...
Wu T, Werner HJ, Manthe U. Accurate potential energy surface and quantum reaction rate calculations ...
Comparisons are made between potential energy surfaces (PES) for N2 + N and N2 + N2 collisions and b...
Andersson S, Nyman G, Arnaldsson A, Manthe U, Jonsson H. Comparison of Quantum Dynamics and Quantum ...
Schiffel G, Manthe U, Nyman G. Full-Dimensional Quantum Reaction Rate Calculations for H+CH4 -> H...
We report rigorous quantum dynamics studies of the Cl+H-2 reaction. The time-dependent wave packet c...
Eight-dimensional (8D) transition-state wave packet simulations have been performed on two latest po...
The title reaction is thought to be responsible for the production of molecular nitrogen in interste...
We present nonadiabatic quantum dynamical calculations on the two coupled potential energy surfaces ...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...