Exploring bottom-charmed molecular tetraquarks with the complex scaling method

Abstract

In this work, we adopt the one-boson exchange model to analyze the D(*)(s)B(*)(s) interactions from a coupled-channel perspective. For the I(JP)=1(1+) DB*/D*B/D*B* system, employing the complex scaling method, we obtain a loosely bound state and two resonant states located below the DB*, D*B, and D*B* thresholds, respectively. Assuming that the charmonium-like states Tcc1(3900) and Tcc1(4020), as well as the bottomonium-like states Tbb1(10610) and Tbb1(10650), are molecular states near their respective thresholds, we suggest that the predicted states in the I(JP)=1(1+) D(*)(s)B(*)(s) system could be their bottom-charmed analogues. In addition, we extend our analysis to other D(*)(s)B(*)(s) combinations with various quantum numbers. Our results suggest that some exotic structures may exist in the bottom-charmed sector. Finally, we collect the possible decay channels for future experimental observations. The Bc/Bc* 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.

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