TL;DR
This paper explores how topological properties like Berry phases influence the backbending phenomenon in the rotational spectra of superfluid nuclei, linking nuclear structure to geometric phase effects.
Contribution
It introduces a topological perspective on backbending, connecting diabolic points and Berry phases to nuclear rotational behavior.
Findings
Backbending is related to topological features of the nuclear spectrum.
Berry phases play a crucial role in the rotational alignment process.
Diabolic points are key to understanding the spectral phenomena.
Abstract
Backbending is a typical phenomenon in the rotational spectra of superfluid nuclei. It is caused by the rotational alignment of a pair of nucleons and depends on topological properties of the Hartree-Fock-Bogoliubov spectrum in the rotating frame characterized by diabolic points and Berry phases.
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