C. Barbieri
Published 2009-09-16, updated 2009-10-23Version 2
We consider the proton and neutron quasiparticle orbits around the closed-shell 56Ni and 48Ca isotopes. It is found that large model spaces (beyond the capability of shell-model applications) are necessary for predicting the quenchings of spectroscopic factors. The particle-vibration coupling is identified as the principal mechanism. Additional correlations--due to configuration with several particle-hole excitations--are estimated using shell-model calculations and generate an extra reduction which is < ~4% for most quasiparticle states. The theoretical calculations nicely agree with (e,e'p) and heavy ion knock-out experiments. These results open a new path for a microscopic understanding of the shell-model.
Comments: Minor comments added and typos corrected. Accepted for publication on Phys. Rev. Lett
Journal: Phys.Rev.Lett.103:202502,2009
Quenching of spectroscopic factors for proton removal in oxygen isotopes
Threshold Effects in Multi-channel Coupling and Spectroscopic Factors in Exotic Nuclei
Consistency of spectroscopic factors from (e,e'p) reactions at different momentum transfers
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