Mass-imbalance effect on the cluster formation in a one-dimensional Fermi gas with coexistent s- and p-wave interactions

Abstract

We consider the mass-imbalance effect on the clustering in a one-dimensional two-component Fermi gas with coexistent even- and odd-wave interactions resulting in different configurations of clustering phases. We obtain the solutions of both stable two- and three-body cluster states with different mass ratios and configurations by solving the corresponding variational equations. We numerically map out phase diagrams consisting of the s- and p-wave pairing phases, and trimer phase with different configurations, in a plane of s- and p-wave pairing strengths. Within the explored ranges of s- and p-wave pairing strengths, the in-vacuum three-body states are always more deeply bound than the two-body ones. While for the in-medium case, the Cooper trimer phase dominates over the pairing phases when both s- and p-wave interactions are moderately strong. There is also a competition between different clustering configurations of three-body clustering.

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