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W2092588807 abstract "Pairing fluctuations are self-consistently incorporated on the same footing as the quadrupole deformations in present state of the art calculations including particle number and angular momentum conservation as well as configuration mixing. The approach is complemented by the use of the finite range density dependent Gogny force which, with a unique source for the particle-hole and particle-particle interactions, guarantees a self-consistent interplay in both channels. We have applied our formalism to study the role of the pairing degree of freedom in the description of the most relevant observables like spectra, transition probabilities, separation energies, etc. We find that the inclusion of pairing fluctuations mostly affects the description of excited states, depending on the excitation energy and the angular momentum. $E0$ transition probabilities experiment rather big changes while $E2$'s are less affected. Genuine pairing vibrations are thoroughly studied with the conclusion that deformations strongly inhibits their existence. These studies have been performed for a selection of nuclei: spherical, deformed and with different degree of collectivity." @default.
W2092588807 created "2016-06-24" @default.
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W2092588807 creator A5041153888 @default.
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W2092588807 date "2013-12-10" @default.
W2092588807 modified "2023-10-04" @default.
W2092588807 title "Large-amplitude pairing fluctuations in atomic nuclei" @default.
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W2092588807 doi "https://doi.org/10.1103/physrevc.88.064311" @default.
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