Exact solution for SU(2)-symmetry breaking bosonic mixtures at strong interactions

Abstract

We study the equilibrium properties of a one-dimensional mixture of two Tonks-Girardeau gases on a ring geometry in the limit of strongly-repulsive inter-species interactions. We derive the exact many-body wavefunction and compare it to the SU(2) solution where intra- and inter-species interactions are also diverging but equal. We focus on the role of the SU(2)-symmetry breaking on the behaviour of the large- and short-distance correlations by studying the zero-momentum occupation number and the Tan's contact from the asymptotic behavior of the momentum distribution. Although the symmetry is only weakly broken, it has important consequences on spin correlations in the system as the reduction by a factor of two of the zero-momentum occupation number with respect to the SU(2) case in the thermodynamic limit and the decrease of the Tan's contact.