Tri-meson state BB*B*

Abstract

We systematically explore the trimeson states BB*B* with various isospin-spin configurations in the quark model by solving exactly the six-body Schr\"odinger equations with the Gaussian expansion method. The configuration [[B B*]10B*]012 is not only approximately 10.2 MeV lower than the threshold of its constituent particles but also about 0.2 MeV below that of the compact tetraquark state [BB*]10 and B*. This configuration manifests a loose two-body bound state composed of [BB*]10 and B* , with a size of around 4.75 fm. In contrast, the configurations [[BB*]11B*]012, [B[B*B*]01]012, and [[BB*]11B*]112 exhibit binding energies of less than 1 MeV relative to their constituent particles, establishing a loose three-meson bound state. After coupling three configurations with 120-, the trimeson state with 120- remains a loosely two-body bound state with a binding energy around 1.5 MeV and a huge size of 2.20 fm, in which the configuration [[BB*]10B*]012 is dominant, contributing 80\% to the overall probability. Among the four bound configurations, the σ-meson exchange plays a decisive role. The meson pair [BB*]10, resembling the short-range strong correlated p-n pair in nuclear physics, prevails over other types of meson pairs. The meson pair [BB*]10 not only contributes to the binding mechanisms but also influences the spatial structures of those stable trimeson configurations.

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