Three-body resonances of αα M clusters (M=φ, J/, ηc) in 8MBe nuclei
Abstract
Motivated by the recently obtained HAL QCD potentials for the N-φ, N-J/, and N-ηc interactions, we investigate the structure of the exotic nuclei 8φBe, 8J/Be, and 8ηcBe as α+α+M three-body systems (M denotes the meson). The bound and resonant states are calculated consistently using the Gaussian expansion method, with resonances identified via the complex scaling method. For the αφ and α-charmonium interactions, a folding potential is constructed based on the HAL QCD potentials and fitted to a Woods-Saxon form. We find that the φ meson exhibits a strong ``glue-like" effect, binding the 0+1, 2+1, and 4+1 resonant states of 8Be into stable states and significantly reducing the α-α distance. In contrast, the interactions of J/ and ηc with the nucleus are weaker, forming only shallow bound states with the 0+1 state of 8Be and even increasing the α-α separation. Notably, our analysis predicts weakly bound α-J/ states in the 4S3/2 and 2S1/2 channels, a result not reported in prior studies, which suggests that 8J/Be may not be a Borromean nucleus. The sensitivity of the 8MBe(4+1) state-transitioning from bound to resonant depending on the α-particle radius-highlights the subtle dynamics at play. These results provide a systematic theoretical comparison of how different vector mesons modify nuclear clustering, offering critical predictions for future experimental searches of such exotic hadron-nucleus systems.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.