Add to ORKGQuasiclassical trajectory calculations have been carried out at energies above the threshold for collision-induced dissociation for a model symmetric collinear atom–diatomic molecule system. Exact quantum mechanical calculations have shown that quasiclassical trajectories give a qualitatively correct picture of the dynamics in this system, in so far as reaction and total dissociation probabilities are concerned. Trajectories leading to dissociation are found to lie almost entirely in well-defined reactivity bands, with the exception of a few occurring in a small chattering region in which the outcome of the trajectory is extremely sensitive to its initial conditions. The energy distribution functions of the dissociated atoms are obtained an...
This thesis is based on theoretical studies of molecular collisions occurring at relatively low to i...
This thesis is based on theoretical studies of molecular collisions occurring at relatively low to i...
The subject of chemical dynamics typically consists of two steps. The first is the study of the beha...
We present numerical quantum mechanical scattering calculations for the collinear H+H2 reaction on a...
We report the results of a quasiclassical trajectory investigation of the reaction probability (PR) ...
An explicit integration scheme is used to solve the time dependent Schroedinger equation for wavepac...
A variety of quantum mechanical methods have been developed and applied to the study of highly energ...
Numerical integration of the close coupled scattering equations is performed to obtain vibrational t...
Dissociative, exchange, and nonreactive collisions of the H+H2 and He+H+2 systems in collinear geome...
Exact quantum, quasiclassical, and semiclassical reaction probabilities and rate constants for the c...
We investigate the reactive dynamics of the triatomic system F + HCl → HF + Cl for total angular mom...
The collision of H+H2 on the collinear Shavitt, Stevens, Minn, and Karplus (SSMK) surface is studied...
Abstract. Atom-diatomic molecule collision processes are of particular importance in nonequilibrium ...
A method is presented for accurately solving the Schrödinger equation for the reactive collision of ...
A method is presented for accurately solving the Schrödinger equation for the reactive collision of ...
This thesis is based on theoretical studies of molecular collisions occurring at relatively low to i...
This thesis is based on theoretical studies of molecular collisions occurring at relatively low to i...
The subject of chemical dynamics typically consists of two steps. The first is the study of the beha...
We present numerical quantum mechanical scattering calculations for the collinear H+H2 reaction on a...
We report the results of a quasiclassical trajectory investigation of the reaction probability (PR) ...
An explicit integration scheme is used to solve the time dependent Schroedinger equation for wavepac...
A variety of quantum mechanical methods have been developed and applied to the study of highly energ...
Numerical integration of the close coupled scattering equations is performed to obtain vibrational t...
Dissociative, exchange, and nonreactive collisions of the H+H2 and He+H+2 systems in collinear geome...
Exact quantum, quasiclassical, and semiclassical reaction probabilities and rate constants for the c...
We investigate the reactive dynamics of the triatomic system F + HCl → HF + Cl for total angular mom...
The collision of H+H2 on the collinear Shavitt, Stevens, Minn, and Karplus (SSMK) surface is studied...
Abstract. Atom-diatomic molecule collision processes are of particular importance in nonequilibrium ...
A method is presented for accurately solving the Schrödinger equation for the reactive collision of ...
A method is presented for accurately solving the Schrödinger equation for the reactive collision of ...
This thesis is based on theoretical studies of molecular collisions occurring at relatively low to i...
This thesis is based on theoretical studies of molecular collisions occurring at relatively low to i...
The subject of chemical dynamics typically consists of two steps. The first is the study of the beha...