X(3872) and the bound state problem of D0D0 (D0D0) in a chiral quark model
Abstract
The bound state problem of D0D0 (D0D0) is relevant to the molecular interpretation of the X(3872). We investigated this problem in a chiral quark model by solving the resonating group method equation. We found the system is unbound through S-wave π and σ interactions. The inclusion of and ω meson exchanges is helpful to the formation of a molecule. Because the binding energy relies on the coupling constants, we cannot draw a definite conclusion whether a molecular state exists in D0D0 (D0D0) system. When moving on to the bottom counterpart, we obtained an S-wave BB state.
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