Alpha clustering emerges naturally in light nuclei from ab initio calculations, with dual compact and distant rotational modes proposed for clustered systems and mixed shell-cluster components in 12C.
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Using experimental beta and gamma values in a non-unique coordinate system aligned with principal axes produces the most probable nuclear shapes and makes cluster formation visible in light nuclei.
Relativistic nuclear dissociation in emulsion reveals increasing contributions from 8Be(0+), 9B, and 12C Hoyle state with higher alpha multiplicity, consistent with cluster fusion.
citing papers explorer
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Theoretical Studies of alpha Clustering in Nuclei and Beyond
Alpha clustering emerges naturally in light nuclei from ab initio calculations, with dual compact and distant rotational modes proposed for clustered systems and mixed shell-cluster components in 12C.
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Emergence of Cluster Formation in Light Nuclei
Using experimental beta and gamma values in a non-unique coordinate system aligned with principal axes produces the most probable nuclear shapes and makes cluster formation visible in light nuclei.
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The $^{8}$Be nucleus and the Hoyle state in dissociation of relativistic nuclei
Relativistic nuclear dissociation in emulsion reveals increasing contributions from 8Be(0+), 9B, and 12C Hoyle state with higher alpha multiplicity, consistent with cluster fusion.