Tcc+ and X(3872) with the complex scaling method and DD(D)π three-body effect
Abstract
We use the leading order (LO) contact interactions and OPE potentials to investigate the newly observed double-charm state Tcc+. The DDπ three-body effect is important in this system since the intermediate states can go on shell. We keep the dependence of the pion propagators on the center-of-mass energy, which results in a unitary cut of the OPE potential at the DDπ three-body threshold. By solving the complex scaled Schr\"odinger equation, we find a pole corresponding to the Tcc+ on the physical Riemann sheet. Its width is around 80 keV and nearly independent of the choice of the cutoff. Assuming the DDπ and DD* channels as the main decay channels, we apply the similar calculations to the X(3872), and find its width is even smaller. Besides, the isospin breaking effect is significant for the X(3872) while its impact on the Tcc+ is relatively small.
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