Double-charm tetraquark under the complex scaling method
Abstract
The LHCb Collaboration discovered a double-charm tetraquark Tcc+ with a very small width. We investigate the Tcc+ as a DD* molecule with JP=1+ in the framework of the one-boson-exchange potential model. The isospin breaking effect and S-D wave coupling are taken into account carefully. We adopt the complex scaling method (CSM) to study the DD* system and obtain a quasibound state corresponding to the Tcc+. Its binding energy relative to the D0D*+ and width are -354 keV and 61 keV respectively. The isospin breaking effect is found to be enormous, and the S-wave D0D*+ and D+D*0 components give dominant contributions with the probabilities of 72.1\% and 27.1\% respectively. In addition, we do not find any resonances in the DD* system. As a by-product, we study the X(3872) as a (DD*-D*D)/2 molecule with JPC=1++. We also find a quasibound state corresponding to the X(3872). Its binding energy relative to the D0D*0 threshold and width are -111 keV and 26 keV respectively. The S-wave (D0D*0-D*0D0)/2 component dominates this state with the probability of 92.7\%.
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