Quantum dynamics of <sup>16</sup>O + <sup>36</sup>O<inf>2</inf> and <sup>18</sup>O + <sup>32</sup>O<inf>2</inf> exchange reactions
Quantum dynamics of <sup>16</sup>O + <sup>36</sup>O<inf>2</inf> and <sup>18</sup>O + <sup>32</sup>O<inf>2</inf> exchange reactions
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Date
2015-05-07
Authors
Rajagopala Rao, T.
Guillon, G.
Mahapatra, S.
Honvault, P.
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Abstract
We present quantum dynamical investigations of 16O + 36O2 and 18O + 32O2 exchange reactions using a time-independent quantum mechanical method and an accurate global potential energy surface of ozone [Dawes et al., J. Chem. Phys. 135, 081102 (2011)]. Initial state-selected integral cross sections, rate constants, and Boltzmann averaged thermal rate constants are obtained and compared with earlier experimental and theoretical results. The computed thermal rate constants for the oxygen exchange reactions exhibit a negative temperature dependence, as found experimentally. They are in better agreement with the experiments than the previous studies on the same reactions.
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Journal of Chemical Physics. v.142(17)