In-medium hyperon potentials and the quarkyonic hyperon onset: charged Σ's in β-equilibrium and the neutrino connection

Abstract

Quarkyonic matter resolves the neutron-star hyperon puzzle statistically: neutrons fill low-momentum d-quark phase space, shifting the S=-1 threshold from μB=MY to 2MY-MN and suppressing residual softening by 1/3 in the Fujimoto--Kojo--McLerran (FKM) mechanism. We dress FKM's IdylliQ model with in-medium potentials, constrained by hypernuclear data and neutrino-induced hyperon FSI, and find: (i) the dressed onset, μB onset=(2MY-MN)+2UY-, carries UY at weight 2, with dn onset/dUY0.3\, per 10, twice the leverage. (ii) A self-consistent neutron potential enters at weight -2, so protection needs (n onset)+96. (iii) With leptons in β equilibrium, the Σ- (dds) onset becomes μe258+-, never reached inside a 2\, core: Σ- switches from first hyperon to forbidden and the Σ ordering inverts. (iv) The continuation gives TOV softening below 0.05\, in the FKM ansatz family and below 0.025\, for the realistic interacting star, 4--8 below hadronic models. In the family this is a ceiling; generally it is a floor, since hyperons above are omitted. (v) In an interacting low-density sector calibrated to =2.12\,, core strangeness is controlled by ((),cΛ): at ()=-28, the maximum-mass star is hyperon-free once the supra-saturation YNN turn-over exceeds a few-MeV threshold c*Λ. Projected SBND+DUNE FSI precision pins () but leaves cΛ -- to which neutrino data are blind -- decisive: with the heavy-ion prior, P( hyperon-free\ core)=0.90, versus 0.89 from priors alone, prior-dominated rather than measured. The sharpest observable is differential: d/dUY is an order of magnitude smaller than in mean-field models, discriminating the two resolutions.

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