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Deformation effects in low-momentum distributions of heavy nuclei

arXiv:nucl-th/0301046

Abstract

Momentum distributions (MD) of deep hole proton states in $^{238}$U are studied paying particular attention to the influence of deformation. Two essentially different mean-field models, Woods-Saxon (WS) and Skyrme-Hartree-Fock with the SkM$^*$ force, are used. Noticeable deviations between the WS and SkM$^*$ results are found. They are mainly due to the difference in effective nucleon mass. In particular, SkM$^*$ gives much weaker deformation effects at low momenta than WS. It is shown that, in spite of the deformation mixing, MD at low momenta can serve for identification of $K^π=1/2^+$ hole states originating from $s_{1/2}$ spherical sub-shells. Moreover, following the WS calculations, the deformation results in additional $K^π=1/2^+$ states with strong $l=0$ contributions. A possibility to probe such states in knock-out experiments is discussed.

9 pages, 3 figures. In the replaced version the figures were optimized without changing their content