Analytic electromagnetic signatures of compact pentaquark structure: A multi-current QCD light-cone sum rules analysis of the PψsΛ states

Abstract

Probing the internal organization of hidden-charm pentaquarks -- including the spin-color correlations that distinguish compact diquark-diquark-antiquark configurations from loosely bound hadronic molecules -- requires observables beyond mass spectroscopy. We argue that multi-current QCD light-cone sum rules (LCSR) provide a diagnostic framework through exact analytic relations among flavor-sector contributions enforced by the algebra of the interpolating currents. We identify two such signatures: (i) the light-quark contributions satisfy μu/μd=eu/ed=-2 in all four currents considered, reflecting a common Lorentz-color kernel; and (ii) for the J3(x) current the charm contribution vanishes identically, μc=0, from the Dirac structure of the anti-charm coupling rather than the pseudoscalar charm-diquark embedding alone. Using four diquark-diquark-antiquark currents J1(x)-J4(x) with JP=12-, we obtain μJ1=-1.35+0.35-0.28\,μN, μJ2=3.14+0.65-0.50\,μN, μJ3=1.01+0.25-0.20\,μN, μJ4=-1.79+0.41-0.34\,μN. These predictions are paired with the PψsΛ(4338) and PψsΛ(4459) on mass grounds as a working hypothesis, since the 0.11~GeV uncertainties accommodate either state within 1σ of all four currents. The magnitudes |μ| 1-3\,μN lie above quark-model and heavy pentaquark chiral perturbation theory expectations (|μ| 0.5\,μN). Applying the same procedure to two previous molecular LCSR analyses yields μu/μd=-1/2 rather than -2, providing an LCSR-internal contrast at the flavor-decomposed level even when total magnitudes are comparable. The two signatures are immune to the state-to-current pairing and offer falsifiable tests of the compact picture.