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The isospin and neutron-to-proton excess dependence of short-range correlations

J. RyckebuschDepartment of Physics and Astronomy, Ghent University, BelgiumWim CosynDepartment of Physics and Astronomy, Ghent University, BelgiumSam StevensDepartment of Physics and Astronomy, Ghent University, BelgiumCorneel CasertDepartment of Physics and Astronomy, Ghent University, BelgiumJannes NysDepartment of Physics and Astronomy, Ghent University, Belgium
2019en
ABI

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We provide a systematic study of the isospin composition and neutron-to-proton (NZ) ratio dependence of nuclear short-range correlations (SRC) across the nuclear mass table. We use the low-order correlation operator approximation (LCA) to compute the SRC contribution to the single-nucleon momentum distributions for 14 different nuclei from A=4 to A=208. Ten asymmetric nuclei are included for which the neutrons outnumber the protons by a factor of up to 1.54. The computed momentum distributions are used to extract the pair composition of the SRC. We find that there is a comprehensive picture for the isospin composition of SRC and their evolution with nucleon momentum. We also compute the non-relativistic kinetic energy of neutrons and protons and its evolution with nuclear mass A and NZ. Confirming the conclusions from alternate studies it is shown that the minority species (protons) become increasingly more short-range correlated as the neutron-to-proton ratio increases. We forge connections between measured nucleon-knockout quantities sensitive to SRC and single-nucleon momentum distributions. It is shown that the LCA can account for the observed trends in the data, like the fact that in neutron-rich nuclei the protons are responsible for an unexpectedly large fraction of the high-momentum components.

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