Hypernuclear cluster states of 12B Unveiled through Neural Network-Driven Microscopic Calculation

Abstract

We investigate the hypernuclear cluster states of 12B using a neural-network-driven microscopic model. We extend the Control Neural Networks (Ctrl.NN) method and systematically calculate the positive-parity spectrum of 12B. By incorporating sd-shell excitations and parity-coupling effects into the 12B hypernuclear system, we reveal structural changes, including clustering effects and new configurations such as isosceles-triangle and α-t-α linear-chain structures. Furthermore, by comparing with experimental data, we identify that many peaks (\#6 and \#8) can be interpreted as p dominant states, which is consistent with shell-model predictions. Notably, based on our analysis of the excited states of 12B, we propose possible candidates for previously unexplained or controversial experimental peaks.

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