Electromagnetic properties of vector doubly charmed tetraquark states

Abstract

We conduct a systematic study of the electromagnetic properties of multiquark systems with undetermined internal structures. Motivated by the recent observation of the Tcc+ state, we apply the light-cone version of the QCD sum rule method to extract the magnetic dipole moments of several possible doubly-charmed vector tetraquark states. When analyzing the magnetic dipole moment of these states, they are modeled to have the diquark-antidiquark configurations. The magnetic dipole moments for the members are extracted as μTcc u d = 1.17+0.44-0.32 \, μN, μTcc u s = 1.35+0.50-0.37 \, μN, μTcc d s = -2.69+1.02-0.75 \, μN, μTcc u u = 1.33+0.56-0.40 \, μN, μTcc d d = 1.41+0.57-0.43 \, μN and μTcc s s = 1.44+0.53-0.41 \, μN. Comparing the results obtained for the magnetic dipole moments of the Tcc u d state with the Tcc u s state, the U-symmetry is seen to be broken at about \%15, while for the Tcc d d and Tcc s s states, this symmetry is minimally broken. The obtained results may be useful to determine the true nature of these new interesting states.