Lattice calculations of nucleon wavefunctions reveal superposition nodes from mixing interpolating fields and built-in nodes intrinsic to individual s-wave Dirac components.
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A unified quark-hadronic framework for the ρ resonance determines its bare mass from refitted narrow-meson parameters and extracts the ππ coupling from phase-shift data to compute the physical width and bare-state fraction.
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Understanding the structure of nucleon excitations from their wavefunctions
Lattice calculations of nucleon wavefunctions reveal superposition nodes from mixing interpolating fields and built-in nodes intrinsic to individual s-wave Dirac components.
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How to understand $\rho$ Resonance from the Quark Model and $\pi\pi$ $P$-wave phase shift
A unified quark-hadronic framework for the ρ resonance determines its bare mass from refitted narrow-meson parameters and extracts the ππ coupling from phase-shift data to compute the physical width and bare-state fraction.