Probing the three-body force in hadronic systems with specific charge parity

Abstract

Three-body forces, a type of non-perturbative strong interaction, are widely studied in nuclear physics. However, whether their inclusion is necessary in nuclear systems remains a topic of intense debate. In this letter, we propose that the existence of three-body forces in certain three-body hadronic systems with definite C-parity is certain. Such systems consist of two components whose interactions are mediated by three-body forces--a mechanism not easily realized in conventional three-nucleon systems. We investigate two specific three-body hadronic systems, DsDK and D*Dη, using contact-range potentials. The two-body hadron-hadron interactions are constrained by reproducing their scattering lengths, while the three-body couplings are constrained by charge symmetry. Our results indicate that three-body forces play a minor role in binding the I(JPC)=0(0--) DsDK system, but a crucial one in binding the I(JPC)=0(1-+) D*Dη system. In fact, three-body forces determine whether D *Dη forms a bound state, making this system a promising candidate for exploring three-body forces in hadronic physics.

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