A quantum version of a recent formulation of transition state theory in phase space is presented. The theory developed provides an algorithm to compute quantum reaction rates and the associated Gamov-Siegert resonances with very high accuracy. The algorithm is especially efficient for multi-degree-of-freedom systems where other approaches are no longer feasible.
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent realization of Wigner's transition state theory in phase space is pres...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent realization of Wigner’s transition state theory in phase space is pres...
A quantum version of a recent realization of Wigner’s transition state theory in phase space is pres...
Transition state theory forms the basis of computing reaction rates in chemical and other systems. R...
Transition state theory forms the basis of computing reaction rates in chemical and other systems. R...
Transition state theory forms the basis of computing reaction rates in chemical and other systems. R...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent realization of Wigner's transition state theory in phase space is pres...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent formulation of transition state theory in phase space is presented. Th...
A quantum version of a recent realization of Wigner’s transition state theory in phase space is pres...
A quantum version of a recent realization of Wigner’s transition state theory in phase space is pres...
Transition state theory forms the basis of computing reaction rates in chemical and other systems. R...
Transition state theory forms the basis of computing reaction rates in chemical and other systems. R...
Transition state theory forms the basis of computing reaction rates in chemical and other systems. R...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...
We develop Wigner's approach to a dynamical transition state theory in phase space in both the class...