Tiao Xie scite author profile

Tiao Xie

2Publications

140Citation Statements Received

77Citation Statements Given

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Emerson (United States), Atlanta University Center, Emory University

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Quantum and quasiclassical studies of the O(3P)+HCl→OH+Cl(2P) reaction using benchmark potential surfaces

Xie

Bowman

Duff

et al. 2004

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We have performed quantum mechanical (QM) dynamics calculations within the independent-state approximation with new benchmark triplet A" and A' surfaces [B. Ramachandran et al., J. Chem. Phys. 119, 9590 (2003)] for the rovibronic state-to-state measurements of the reaction O(3P)+HCl(v=2,j=1,6,9)-->OH(v'j')+Cl(2P) [Zhang et al., J. Chem. Phys. 94, 2704 (1991)]. The QM and experimental rotational distributions peak at similar OH(j') levels, but the QM distributions are significantly narrower than the measurements and previous quasiclassical dynamics studies. The OH(low j) populations observed in the measurements are nearly absent in the QM results. We have also performed quasiclassical trajectory with histogram binning (QCT-HB) calculations on these same benchmark surfaces. The QCT-HB rotational distributions, which are qualitatively consistent with measurements and classical dynamics studies using other surfaces, are much broader than the QM results. Application of a Gaussian binning correction (QCT-GB) dramatically narrows and shifts the QCT-HB rotational distributions to be in very good agreement with the QM results. The large QCT-GB correction stems from the special shape of the joint distribution of the classical rotational/vibrational action of OH products. We have also performed QM and QCT calculations for the transition, O+HCl(v=0,T=300 K)-->OH(v'j')+Cl from threshold to approximately 130 kcal mol(-1) collision energy as a guide for possible future hyperthermal O-atom measurements. We find in general a mixed energy release into translation and rotation consistent with a late barrier to reaction. Angular distributions at high collision energy are forward peaked, consistent with a stripping mechanism. Direct collisional excitation channel cross sections, O+HCl(v=0,T=300 K)-->O+HCl(v'=1), in the same energy range are large, comparable in magnitude to the reactive channel cross sections. Although the (3)A" state dominates most collision processes, above approximately 48 kcal mol(-1), the (3)A' state plays the major role in collisional excitation.

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Quantum calculations of the rate constant for the O(3P)+HCl reaction on new ab initio A″3 and A′3 surfaces

Xie

Bowman

Peterson

et al. 2003

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We report the thermal rate constant of the O(3 P) + HCl AE OH + Cl reaction calculated from 200 to 3200 K, using new fits to extensive ab initio calculations [B. Ramachandran and K. A. Peterson, J. Chem. Phys. preceding paper]. The rate constants are obtained for both the 3 A" and 3 A' surfaces using exact quantum reactive scattering calculations for selected values of the total angular momentum and the Jshifting approximation for both the 3 A" and 3 A' surfaces. The results are compared with the ICVT/mOMT rate constants calculated by the POLYRATE program and all available experimental data. Other related high energy reaction channels are also studied qualitatively for their contribution to the total thermal rate constant at high temperature.

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Tiao Xie

Quantum and quasiclassical studies of the O(3P)+HCl→OH+Cl(2P) reaction using benchmark potential surfaces

Quantum calculations of the rate constant for the O(3P)+HCl reaction on new ab initio A″3 and A′3 surfaces

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