Add to ORKGThe results of an accurate quantum mechanical treatment of the planar H+H_2 exchange reaction on a realistic potential energy surface are presented. Full vibration–rotation convergence was achieved in the calculations, and this, together with a large number of auxiliary convergence and invariance tests, indicates that the cross sections are accurate to 5% or better. The reactive differential cross sections are always backward peaked over the range of total energies from 0.3 to 0.65 eV. Nonreactive j=0 to j′=2 cross sections are backward peaked at low energy (0.4 eV) shifting to sidewards peaking for E≳0.5 eV. Quantum symmetry interference oscillations are very significant in the j=0 to j′=2 para‐to‐para cross sections for E≥0.6 eV. Reactive...
Time-independent quantum mechanical (TIQM) approach (helicity basis truncated at k=2) has been used ...
The H + H2 reaction is very important in theoretical chemical dynamics (1-4). A model that is often ...
Quantum reactive scattering calculations are reported for the four-atom reactions OH + H2(ν = 0,1) →...
The results of an accurate quantum mechanical treatment of the planar H+H_2 exchange reaction on a r...
Accurate three‐dimensional reactive and nonreactive quantum mechanical cross sections for the H+H_2 ...
We have performed accurate quantum mechanical calculations for the coplanar H + H_2 exchange reacti...
We have performed accurate quantum mechanical calculations for the coplanar H + H_2 exchange reacti...
We have performed accurate quantum mechanical calculations for the coplanar H + H_2 exchange reacti...
State-to-state differential cross sections have been calculated for the hydrogen exchange reaction, ...
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 ...
We present numerical quantum mechanical scattering calculations for the collinear H+H2 reaction on a...
Accurate three–dimensional (3–D) quantum–mechanical calculations of differential and total cross sec...
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 ...
Time-independent quantum mechanical (TIQM) approach (helicity basis truncated at k=2) has been used ...
The H + H2 reaction is very important in theoretical chemical dynamics (1-4). A model that is often ...
Quantum reactive scattering calculations are reported for the four-atom reactions OH + H2(ν = 0,1) →...
The results of an accurate quantum mechanical treatment of the planar H+H_2 exchange reaction on a r...
Accurate three‐dimensional reactive and nonreactive quantum mechanical cross sections for the H+H_2 ...
We have performed accurate quantum mechanical calculations for the coplanar H + H_2 exchange reacti...
We have performed accurate quantum mechanical calculations for the coplanar H + H_2 exchange reacti...
We have performed accurate quantum mechanical calculations for the coplanar H + H_2 exchange reacti...
State-to-state differential cross sections have been calculated for the hydrogen exchange reaction, ...
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 ...
We present numerical quantum mechanical scattering calculations for the collinear H+H2 reaction on a...
Accurate three–dimensional (3–D) quantum–mechanical calculations of differential and total cross sec...
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 ...
Time-independent quantum mechanical (TIQM) approach (helicity basis truncated at k=2) has been used ...
The H + H2 reaction is very important in theoretical chemical dynamics (1-4). A model that is often ...
Quantum reactive scattering calculations are reported for the four-atom reactions OH + H2(ν = 0,1) →...