A. Denniston scite author profile

The extraction of the relative abundances of short-range correlated (SRC) nucleon pairs from inclusive electron scattering is studied using the generalized contact formalism (GCF) with several nuclear interaction models. GCF calculations can reproduce the observed scaling of the cross-section ratios for nuclei relative to deuterium at high x B and large Q 2 , a 2 = (σ A /A)/(σ d /2). In the nonrelativistic instant-form formulation, the calculation is very sensitive to the model parameters and only reproduces the data using parameters that are inconsistent with ab initio many-body calculations. Using a light-cone GCF formulation significantly decreases this sensitivity and improves the agreement with ab initio calculations. The ratio of similar mass isotopes, such as 40 Ca and 48 Ca, should be sensitive to the nuclear asymmetry dependence of SRCs, but is found to also be sensitive to low-energy nuclear structure. Thus the empirical association of SRC pair abundances with the measured a 2 values is only accurate to about 20%. Improving this will require cross-section calculations that reproduce the data while properly accounting for both nuclear structure and relativistic effects.

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12C(e,e'pN) measurements of short range correlations in the tensor-to-scalar interaction transition region

Korover¹,

Pybus²,

Schmidt³

et al. 2021

Physics Letters B

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The CLAS12 Backward Angle Neutron Detector (BAND)

Segarra

Hauenstein

Schmidt

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

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A. Denniston

Probing the core of the strong nuclear interaction

Direct Observation of Proton-Neutron Short-Range Correlation Dominance in Heavy Nuclei

Extracting the number of short-range correlated nucleon pairs from inclusive electron scattering data

12C(e,e'pN) measurements of short range correlations in the tensor-to-scalar interaction transition region

The CLAS12 Backward Angle Neutron Detector (BAND)

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