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Internal structure of the Tcc(3875)+ from its light-quark mass dependence

Michael Abolnikov, V. Baru, E. Epelbaum, A. A. Filin, C. Hanhart, Lu Meng

2024Physics Letters B15 citationsDOIOpen Access PDF

Abstract

We employ a chiral effective field theory-based approach to connect D D ⁎ scattering observables at the physical and variable pion masses accessible in lattice QCD simulations. We incorporate all relevant scales associated with three-body DDπ dynamics and the left-hand cut induced by the one-pion exchange for pion masses higher than the physical one, as required by analyticity and unitarity. By adjusting the contact interactions to match experimental data at the physical pion mass and lattice finite-volume energy levels at m π = 280 MeV, we predict the trajectory of the T c c pole as a function of the pion mass, finding it consistent with the hadronic-molecule scenario. In particular, we find that the explicit treatment of the one-pion exchange has a pronounced effect on the pole trajectory for m π ≳ 230 MeV by pushing it into the complex energy plane.

Topics & Concepts

PhysicsParticle physicsQuarkTop quarkNuclear physicsBottom quarkTop quark condensateParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
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