English

Two Particles in a Trap

Nuclear Theory 2011-10-04 v1 Quantum Physics

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 Δ=δ(k)/π×dE\Delta=-\delta(k)/\pi\times dE, where dEdE 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 ±\rightarrow \pm \infty. The energy shift Δ\Delta is familiar from a relatedproblem, that of two particles in a spherical infinite square-well trap of radius RR in the limit RR\rightarrow \infty. The approximation ishowever as large as 30% for finite values of RR, a situation quite different from the Harmonic Oscillator case. The square-well results for RR\rightarrow \infty led to the use ofin-medium (effective) interactions in nuclear matter calculations that were Δ\propto \Delta 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

R2 v1 2026-06-21T19:13:32.670Z