Effect of a repulsive three-body interaction on the DD(*)K molecule

Abstract

The hadronic molecular picture of the observed exotic states has inspired numerous investigations into few-body systems. Recently, the lattice effective field theory studied the effect of a three-body interaction on the binding energy of the DD*K system, revealing an intriguing phenomenon in the binding energy. This work uses the Gaussian expansion method to explore the underlying physics. Our results show that as the repulsive three-body interaction strengthens, the spatial size of the DD(*)K bound state gradually increases. Further enhancement of the three-body interaction causes the DD(*)K three-body bound state to break into a D(*)K two-body bound state, accompanied by a distant D meson. The identical nature of the two D mesons leads to the fact that the DDK system consistently resembles an isosceles triangle-shaped spatial configuration.

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