Potential anisotropy effects on inelastic differential cross sections

The dependence of rotationally inelastic cross sections on the parameters of the interaction potential has been investigated for a model system consisting of a homonuclear diatomic molecule and an atom. The potential, V(r, O)=Cema'[ 1 t C& a,P,(cos 0) ] has been employed and the computations have be

We propose an iterative semislassical procedure for inverting elastic differential cross section data from multichannel scattering experiments to obtain the complex potential in the optical model. Application is made to He\* + Ar collisions.

We derive improved axiomatic upper bounds on the elastic unpolarized differential cross section, do/do, at high energies for the scattering of particles with arbitrary spin. We prove that da x ,5m s {CL + 1)VdCOS e)]" + sin28[Pr'(cos @]z}, with I. = fr 1/x In @/ueL), where s and t are, respectively,

A semiclassical model of hne couphngs for IR absorption or Raman scatterrng IS proposed Thor model which Uses a simple traJectoty descrtptton leads to accurate state-to-state rotatIonal Integral cross secttons as shown by comparison m11.'1 close-cot.phng and coupled-stares results for Nz-Ar Its trac