Title:$P$-wave charmonium contribution to hidden-charm states from lattice QCD

Abstract:We analyze, considering the contribution of $P$-wave charmonia, lattice data for the $D \overline{D}$-$D_s \overline{D}_s$ coupled-channel and $D \overline{D}{}^\ast$ systems and search for hidden-charm states with $J^{PC}=0^{++}$, $1^{++}$, and $2^{++}$ quantum numbers. For $0^{++}$, the analysis reveals three poles in the $D\overline{D}$-$D_s \overline{D}_s$ coupled-channel amplitude, corresponding to three states. Two of these poles, located near the $D\overline{D}$ and $D_s \overline{D}_s$ thresholds, can be interpreted as mostly molecular states. A third pole above the $D_s \overline{D}_s$ threshold is originated from the $P$-wave $\chi_{c0}(2P)$ charmonium state. In the $1^{++}$ sector, we find two poles in the complex energy plane. The first one is related to the molecular $X(3872)$ state, with a compositeness exceeding $90\%$, while the second one, stemming from the $\chi_{c1}(2P)$ charmonium, appears above the $D\overline{D}{}^\ast$ threshold and it likely corresponds to the recently discovered $\chi_{c1}(4010)$ state. In the $2^{++}$ sector, we also report two poles and find that the dressed $\chi_{c2}(2P)$ is lighter than the $D^\ast\overline{D}{}^\ast$ molecular state, with the dynamics of the latter closely related to that of the heavy-quark spin-symmetry partner of the $X(3872)$.