Exploring bottom-charmed molecular tetraquarks with complex scaling method (2504.19462v1)

Abstract: In this work, we analyze the $D^{()}_{(s)}B^{()}_{(s)}$ interactions by adopting the one boson exchange model from a coupled channel perspective. For $I(J^{P})=1(1^{+})$ $DB^{}/D^*B/D^*B^{}$ system, utilizing the complex scaling method, we obtain a loosely bound state and two resonant states below $DB^{*}$, $D^*B$, and $D^B^{}$ thresholds, respectively. Assuming that charmonium-like states $T_{c\bar{c}1}(3900)$, $T_{c\bar{c}1}(4020)$ and bottomonium-like states $T_{b\bar{b}1}(10610)$, $T_{b\bar{b}1}(10650)$ are molecular states near the corresponding thresholds, we suggest these predicted particles in $I(J^P)=1(1^+)$ system as their analogues. In addition, we extend our study to other $D^{()}_{(s)}B^{()}_{(s)}$ combinations with different quantum numbers. According to our estimations, there may exist some exotic structures in bottom-charmed sector. Finally, we collect the possible decay channels for future experimental observations. The $B_c/B_c^*$ plus a light meson are the ideal final state to search for the bound states, while the $D_{(s)}^{()}B_{(s)}^{()}$ channels are suitable for the resonances. We highly recommend that the future experiments hunt for these bottom-charmed exotic particles.