Electromagnetic properties of c0 resonances via light-cone QCD

Abstract

We systematically study the electromagnetic properties of controversial states whose internal structure is not elucidated and we try to offer a different point of view to unravel the internal structure of these states. Inspired by the c states observed by the LHCb Collaboration, we study the electromagnetic properties of the c states as the compact diquark-diquark-antiquark pentaquarks with both JP = 12- and JP = 32- in the context of the QCD light-cone sum rule model. From the obtained numerical results, we conclude that the magnetic dipole moments of the c states can reflect their inner structures, which can be used to distinguish their spin-parity quantum numbers. Measuring the magnetic moment of the c states in future experimental facilities can be very helpful for understanding the internal organization and identifying the quantum numbers of these states.