Exploring Efimov states in D*D*D* and DD*D* three-body systems

Abstract

The Efimov effect is an intriguing three-body quantum phenomenon. Searching for Efimov states within the realms of nuclear and hadronic physics presents a challenge due to the inherent inability of natural physical systems to exhibit adjustable two-body scattering lengths. In this study, we examine the potential existence of Efimov states in the D*D*D* and DD*D* three-hadron systems. Utilizing a pionless effective field theory framework, we determine that the presence of Efimov states in the spectrum of the D*D*D* system is contingent upon the existence of an (I,J)=(1,2) D*D* two-body bound system. If only the Tcc+ and its heavy quark spin partner Tcc*+ exist while there is no near-threshold pole in all other S-wave D(*)D* scattering amplitudes, no Efimov effect is expected in the D(*)D*D* systems.

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