Effect of surface temperature on quantum dynamics of H 2 on Cu(111) using a chemically accurate potential energy surface
The effect of surface atom vibrations on H scattering from a Cu(111) surface at different temperatures is being investigated for hydrogen molecules in their rovibrational ground state (v = 0, j = 0). We assume weakly correlated interactions between molecular degrees of freedom and surface modes thro...
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| Veröffentlicht in: | The Journal of chemical physics 2021-03, Vol.154 (10), p.104103 |
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| container_title | The Journal of chemical physics |
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| creator | Dutta, Joy Mandal, Souvik Adhikari, Satrajit Spiering, Paul Meyer, Jörg Somers, Mark F |
| description | The effect of surface atom vibrations on H
scattering from a Cu(111) surface at different temperatures is being investigated for hydrogen molecules in their rovibrational ground state (v = 0, j = 0). We assume weakly correlated interactions between molecular degrees of freedom and surface modes through a Hartree product type wavefunction. While constructing the six-dimensional effective Hamiltonian, we employ (a) a chemically accurate potential energy surface according to the static corrugation model [M. Wijzenbroek and M. F. Somers, J. Chem. Phys. 137, 054703 (2012)]; (b) normal mode frequencies and displacement vectors calculated with different surface atom interaction potentials within a cluster approximation; and (c) initial state distributions for the vibrational modes according to Bose-Einstein probability factors. We carry out 6D quantum dynamics with the so-constructed effective Hamiltonian and analyze sticking and state-to-state scattering probabilities. The surface atom vibrations affect the chemisorption dynamics. The results show physically meaningful trends for both reaction and scattering probabilities compared to experimental and other theoretical results. |
| doi_str_mv | 10.1063/5.0035830 |
| format | Article |
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| title | Effect of surface temperature on quantum dynamics of H 2 on Cu(111) using a chemically accurate potential energy surface |
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