Extraction of state-to-state reactive scattering attributes from wave packet in reactant Jacobi coordinates

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2010

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Abstract

The S-matrix for a scattering system provides the most detailed information about the dynamics. In this work, we discuss the calculation of S-matrix elements for the A+BC -> AB+C, AC+B type reaction. Two methods for extracting S-matrix elements from a single wave packet in reactant Jacobi coordinates are reviewed and compared. Both methods are capable of extracting the state-to-state attributes for both product channels from a single wave packet propagation. It is shown through the examples of H+HD, Cl+H-2, and H+HCl reactions that such reactant coordinate based methods are easy to implement, numerically efficient, and accurate. Additional efficiency can be gained by the use of a L-shaped grid with two-dimensional fast Fourier transform. (C) 2010 American Institute of Physics. [doi:10.1063/1.3328109]

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potential-energy surfaces, differential cross-sections, quantum-mechanical calculation, molecular-beam experiments, spin-orbit, reactivity, thermal rate-constant, reaction probabilities, reaction, dynamics, excitation-function, insertion reactions, physics, atomic, molecular & chemical

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Sun,Zhigang;Guo,Hua;Zhang,Dong H.. 2010. Extraction of state-to-state reactive scattering attributes from wave packet in reactant Jacobi coordinates. Journal of Chemical Physics 132(8): 84112-84112.

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https://hdl.handle.net/10161/3363

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10.1063/1.3328109

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Sun, Zhigang, Hua Guo and Dong H Zhang (2010). Extraction of state-to-state reactive scattering attributes from wave packet in reactant Jacobi coordinates. 10.1063/1.3328109 Retrieved from https://hdl.handle.net/10161/3363.

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