Publication: First Principles Semiclassical Calculations of Vibrational Eigenfunctions
Date
2011
Published Version
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Publisher
American Institute of Physics
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Citation
Ceotto, Michele, Stéphanie Valleau, Gian Franco Tantardini, and Alán Aspuru-Guzik. 2011. First principles semiclassical calculations of vibrational eigenfunctions. Journal of Chemical Physics 134(23), 234103.
Research Data
Abstract
Vibrational eigenfunctions are calculated on-the-fly using semiclassical methods in conjunction with ab initio density functional theory classical trajectories. Various semiclassical approximations based on the time-dependent representation of the eigenfunctions are tested on an analytical potential describing the chemisorption of CO on Cu(100). Then, first principles semiclassical vibrational eigenfunctions are calculated for the \(CO_2\) molecule and its accuracy evaluated. The multiple coherent states initial value representations semiclassical method recently developed by us has shown with only six ab initio trajectories to evaluate eigenvalues and eigenfunctions at the accuracy level of thousands trajectory semiclassical initial value representation simulations.
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Keywords
carbon compounds, chemisorption, copper, density functional theory, eigenvalues and eigenfunctions, initial value problems, potential energy surfaces, vibrational states, ab initio calculations
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