Mass relations in heavy hadrons from Jensen-like inequalities

Abstract

We demonstrate that mass inequalities for hadrons with one or more heavy quarks arise primarily from the concavity of binding energies in the quark model, reflecting short-range Coulombic interactions and long-range confinement. Empirical two-body bindings Bij are extracted from spin-averaged meson masses, ensuring model independence and direct use of experimental data. Fitting these as functions of reduced mass μij reveals a critical confinement scale of 1.34~fm where bindings turn positive. The concave B(1/μ) justifies Jensen-like inequalities under flavor permutation, reproducing relations like mxy > 12(mxx + myy) and baryon analogs, including mxyz > 13(mxxx + myyy + mzzz). Hadron mass decomposition validates MEXP ≈ B + C with σ 2.07~MeV for mesons and baryons. Promoting inequalities to equalities, we predict masses for unobserved heavy baryons (e.g., M(b)=6076.6\,MeV, M(cc)=3703.6\,MeV and M(cc)=3802.4\,MeV) and identify favored quark-exchange scattering channels.