Two Particles in a Trap
Abstract
The Busch-formula relates the energy-spectrum of two point-like particles interacting in a 3-D isotropic Harmonic Oscillator trap to the free scattering phase-shifts of the particles. This formula is used to find an expression for the \it shift \rm in the spectrum from the unperturbed (non-interacting) spectrum rather than the spectrum itself. This shift is shown to be approximately , where is the spacing between unperturbed energy levels. The resulting difference from the Busch-formula is typically 1/2% except for the lowest energy-state and small scattering length when it is 3%. It goes to zero when the scattering length . The energy shift is familiar from a relatedproblem, that of two particles in a spherical infinite square-well trap of radius in the limit . The approximation ishowever as large as 30% for finite values of , a situation quite different from the Harmonic Oscillator case. The square-well results for led to the use ofin-medium (effective) interactions in nuclear matter calculations that were and known as the \it phase shift approximation \rm.Our results indicate that the validity of this approximation depends on the trapitself, a problem already discussed by DeWitt more than 50 years ago for acubical vs spherical trap.
Keywords
Cite
@article{arxiv.1110.0039,
title = {Two Particles in a Trap},
author = {H. S. Kohler},
journal= {arXiv preprint arXiv:1110.0039},
year = {2011}
}
Comments
7 pages 4 figures