Neutron single-particle strength in silicon isotopes: Constraining the driving forces of shell evolution

A. Gade; A. Lemasson; B.A. Brown; C. Langer; C.M. Campbell; C. Walz; D. Bazin; D. Weisshaar; E. Lunderberg; F. Recchia

arxiv: 1504.02329 · v1 · pith:QSZAD2ZBnew · submitted 2015-04-09 · ⚛️ nucl-ex · nucl-th

Neutron single-particle strength in silicon isotopes: Constraining the driving forces of shell evolution

S.R. Stroberg , A. Gade , J.A. Tostevin , V.M. Bader , T. Baugher , D. Bazin , J.S. Berryman , B.A. Brown

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C.M. Campbell K.W. Kemper C. Langer E. Lunderberg A. Lemasson S. Noji T. Otsuka F. Recchia C. Walz D. Weisshaar S. Williams

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keywords shellisotopesneutroncross-shellevolutionforcessiliconsingle-particle

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Shell evolution is studied in the neutron-rich silicon isotopes 36,38,40 Si using neutron single-particle strengths deduced from one-neutron knockout reactions. Configurations involving neutron excita- tions across the N = 20 and N = 28 shell gaps are quantified experimentally in these rare isotopes. Comparisons with shell model calculations show that the tensor force, understood to drive the col- lective behavior in 42 Si with N = 28, is already important in determining the structure of 40 Si with N = 26. New data relating to cross-shell excitations provide the first quantitative support for repulsive contributions to the cross-shell T = 1 interaction arising from three-nucleon forces.

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Neutron single-particle strength in silicon isotopes: Constraining the driving forces of shell evolution

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