Mass-ratio condition for non-binding of three two-component particles with contact interactions

Abstract

Binding of two heavy fermions interacting with a light particle via the contact interaction is possible only for sufficiently large heavy-light mass ratio. In this work, the two-variable inequality is derived to determine a specific value μ* providing that there are no three-body bound states for the mass ratio smaller than μ* . The value μ* = 5.26 is obtained by analyzing this inequality for a total angular momentum and parity LP = 1- . For other LP sectors, the specific mass-ratio values providing an absence of the three-body bound states are found in a similar way. For generality, the method is extended to determine corresponding mass-ratio values for the system consisting of two identical bosons and a distinct particle for different LP ( L > 0 ) sectors.

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