Boson-Faddeev in the Unitary Limit and Efimov States

Abstract

A numerical study of the Faddeev equation for bosons is made with two-body interactions at or close to the Unitary limit. Separable interactions are obtained from phase-shifts defined by scattering length and effective range. In EFT-language this would correspond to NLO. Both ground and Efimov state energies are calculated. For effective ranges r0 > 0 and rank-1 potentials the total energy ET is found to converge with momentum cut-off for > 10/r0 . In the Unitary limit (1/a=r0= 0) the energy does however diverge. It is shown (analytically) that in this case ET=Eu2. Calculations give Eu=-0.108 for the ground state and Eu=-1.×10-4 for the single Efimov state found. The cut-off divergence is remedied by modifying the off-shell t-matrix by replacing the rank-1 by a rank-2 phase-shift equivalent potential. This is somewhat similar to the counterterm method suggested by Bedaque et al. This investigation is exploratory and does not refer to any specific physical system.