1. Influence of Regge poles on rainbow angular scattering for state-to-state chemical reactions using Heisenberg's S matrix programme.
- Author
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Shan, Xiao, Xiahou, Chengkui, and Connor, J. N. L.
- Subjects
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DIFFERENTIAL cross sections , *CHEMICAL reactions , *RAINBOWS , *S-matrix theory , *ANGULAR momentum (Mechanics) - Abstract
Two powerful theories for state-to-state chemical reactions are brought together for the first time. The first theory incorporates Regge pole positions and residues into the partial wave (PW) scattering (S) matrix. The second theory is a 'weak' version of Heisenberg's Scattering Matrix Programme (wHSMP). It uses four general physical principles to suggest simple parameterised forms for the S matrix. The wHSMP is particularly useful for understanding generic structures in differential cross sections (DCSs). Our initial S matrix parameterisation has no Regge poles, but it exhibits a rainbow in the DCS using a Legendre PW series. We then introduce Regge poles for three examples into the S matrix and investigate their influence on the rainbow scattering. We find that inclusion of Regge poles 'pushes' the rainbow angle to larger values. We also employ Nearside-Farside (NF) PW and Local Angular Momentum PW theories, including up to three resummations. The recently introduced 'CoroGlo' test is used to distinguish between glory and corona scattering in the forward direction. We apply full and NF asymptotic (semiclassical) rainbow theories: the uniform and transitional Airy approximations for the farside scattering. We prove that structure in the no-pole and with-pole DCSs are examples of primary and supernumerary rainbows. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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