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>Resonant Scattering Theory of Association Reactions and Unimolecular Decomposition. II. Comparison of the Collision Theory and the Absolute Rate Theory
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Resonant Scattering Theory of Association Reactions and Unimolecular Decomposition. II. Comparison of the Collision Theory and the Absolute Rate Theory
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机译:Resonant Scattering Theory of Association Reactions and Unimolecular Decomposition. II. Comparison of the Collision Theory and the Absolute Rate Theory
The rate expressions derived in the preceding paper using a resonant scattering theory (RST) to describe recombination and unimolecular decomposition are compared with the absolute rate theory (ART). A onehyphen;tohyphen;one correspondence exists between the resonance states in RST and the activated states in ART. The ldquo;states of the activated complexrdquo; are shown to be the channel states in RST, and using the adiabatic approximation to describe the continuum states it is shown that ART does give a properupper boundto the rate even when nonadiabatic effects are included in RST, i.e., the mean transmission coefficientkgr;is equal to or less than one. The collision theory gives explicit expressions forkgr;lpar;kT,Prpar;which is a function of temperature and includes the dependence on pressure. Specific expressions are given for the ldquo;tight complex,rdquo; where the ldquo;activated complexrdquo; occurs at some distorted region in configuration space, and for the ldquo;loose complex,rdquo; where the activated complex is the rotational barrier in the asymptotic channel states. Particular attention is given to the highhyphen;pressure rate constant where the specific transmission coefficient can be simply related to the ratio of the mean widths to the mean spacings of the activated states. Criteria are given for the validity of ART, and it is shown that Light's statistical theory of reaction rates is a special microcanonical version of the ART for the ldquo;loose complex.rdquo;
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