BOUNDS ON SCATTERING PHASE SHIFTS FOR COMPOUND SYSTEMS

Abstract

An extension of recently developed methods determines a rigorous upper bound on 1/(-k cot eta), where eta is the phase shift, for the general one channel scattering process. The method requires truncation of the various potentials, but it should generally be possible, in practice, to so truncate the potentials that the difference between the phase shifts of the original problem and of the problem for which a bound is obtained is insignificant. It is necessary to introduce, for compound system scattering, an absolute definition of the phase shift, not simply a definition modulo pi. The definition chosen is to take the projection of the full scattering wave function on the ground state wave function of the scattering system, and to treat the resultant one coordinate wave function as if it were the scattering wave function for a particle on a center of force. Though irrelevant with regard to the determination of a bound on cot eta, it is interesting that at least for some simple cases this definition automatically increases the phase shift by at least pi whenever the Pauli principle introduces a spatial node into the scattering wave func ion. The triplet scattering of electrons by H atoms provides an example. (Author)

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1960

Accession Number

AD0254789

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