The absolute definition of the phase-shift in potential scattering

Abstract

The variable phase approach to potential scattering with regular spherically symmetric potentials satisfying (1e), and studied by Calogero in his book5, is revisited, and we show directly that it gives the absolute definition of the phase-shifts, i.e. the one which defines δ(k) as a continuous function of k for all k ≥ 0, up to infinity, where δ(∞)=0 is automatically satisfied. This removes the usual ambiguity n π, n integer, attached to the definition of the phase-shifts through the partial wave scattering amplitudes obtained from the Lippmann-Schwinger integral equation, or via the phase of the Jost functions. It is then shown rigorously, and also on several examples, that this definition of the phase-shifts is very general, and applies as well to all potentials which have a strong repulsive singularity at the origin, for instance those which behave like gr-m, g > 0, m ≥ 2, etc. We also give an example of application to the low-energy behaviour of the S-wave scattering amplitude in two dimensions, which leads to an interesting result.

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