The onset of hypernuclear binding

Abstract

Binding energies of light, A≤ 6, hypernuclei are calculated using the stochastic variational method in a pionless effective field theory (EFT) approach at leading order with the purpose of assessing critically the onset of binding in the strangeness S=-2 hadronic sector. The EFT input in this sector consists of (i) a contact term constrained by the scattering length a, using a range of values compatible with correlations observed in relativistic heavy ion collisions, and (ii) a N contact term constrained by the only available A≤ 6 hypernucler binding energy datum of 6He. The recently debated neutral three-body and four-body systems 3n and 4n are found unbound by a wide margin. A relatively large value of |a| 1.5 fm is needed to bind 4H, thereby questioning its particle stability. In contrast, the particle stability of the A=5 hypernuclear isodoublet 5 H--5He is robust, with separation energy of order 1 MeV.