L\"uscher's finite volume test for two-baryon systems with attractive interactions

Abstract

For the attractive interaction, the L\"uscher's finite volume formula gives the phase shift at negative squared moment k2<0 for the ground state in the finite volume, which corresponds to the analytic continuation of the phase shift at k2<0 in the infinite volume. Using this fact, we reexamine behaviors of phase shifts at k2 <0 obtained directly from plateaux of effective energy shifts in previous lattice studies for two nucleon systems on various volumes. We have found that data, based on which existences of the bound states are claimed, show singular behaviors of the phase shift at k2<0, which seem incompatible with smooth behaviors predicted by the effective range expansion. This, together with the fake plateau problem for the determination of the energy shift, brings a serious doubt on existences of the NN bound states claimed in previous lattice studies at pion masses heavier than 300 MeV.