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Constraints on charm-anticharm asymmetry in the nucleon from lattice QCD

Raza Sabbir Sufian, Tianbo Liu, Andrei Alexandru, Stanley J. Brodsky, Guy F. de Téramond, H. G. Dosch, Terrence Draper, Keh-Fei Liu, Yi-Bo Yang

2020Physics Letters B46 citationsDOIOpen Access PDF

Abstract

We present the first lattice QCD calculation of the charm quark contribution to the nucleon electromagnetic form factors GE,Mc(Q2) in the momentum transfer range 0≤Q2≤1.4 GeV2. The quark mass dependence, finite lattice spacing and volume corrections are taken into account simultaneously based on the calculation on three gauge ensembles including one at the physical pion mass. The nonzero value of the charm magnetic moment μMc=−0.00127(38)stat(5)sys, as well as the Pauli form factor, reflects a nontrivial role of the charm sea in the nucleon spin structure. The nonzero GEc(Q2) indicates the existence of a nonvanishing asymmetric charm-anticharm sea in the nucleon. Performing a nonperturbative analysis based on holographic QCD and the generalized Veneziano model, we study the constraints on the [c(x)−c¯(x)] distribution from the lattice QCD results presented here. Our results provide complementary information and motivation for more detailed studies of physical observables that are sensitive to intrinsic charm and for future global analyses of parton distributions including asymmetric charm-anticharm distribution.

Topics & Concepts

PhysicsLattice QCDParticle physicsAsymmetryNucleonCharm (quantum number)Quantum chromodynamicsNuclear physicsChiral perturbation theoryLattice (music)Lattice field theoryAcousticsParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
Constraints on charm-anticharm asymmetry in the nucleon from lattice QCD | Litcius