Is X(7200) the heavy anti-quark diquark symmetry partner of X(3872)?

Abstract

The D()cc() system and cc()cc() system can be related to the D()D() system via heavy anti-quark di-quark symmetry (HADS). In this work, we employ a contact-range effective field theory to systematically investigate the likely existence of molecules in these systems in terms of the hypothesis that X(3872) is a 1++~DD bound state in the isospin symmetry limit, with some of the unknown low energy constants estimated using the light-meson saturation approximation. In the meson-meson system, a JPC=2++~DD molecule commonly referred to as X(4013) is reproduced, which is the heavy quark spin partner of X(3872). In the meson-baryon system, we predict two triply charmed pentaquark molecules, JP=1/2-~Dcc and JP=5/2-~Dcc. In the baryon-baryon system, there exist seven di-baryon molecules, JPC=0-+~cccc, JPC=1--~cccc, JPC=1-+~cccc, JPC=1--~cccc, JPC=2-+~cccc, JPC=2-+~cccc and JPC=3--~cccc. Among them, the JPC=0-+~cccc and/or JPC=1--~cccc molecules may contribute to the X(7200) state recently observed by the LHCb Collaboration, which implies that X(7200) can be related to X(3872) via HADS. As a byproduct, with the heavy quark flavor symmetry we also study likely existence of molecular states in the B()B(), B()bb(), and bb()bb() systems.