Abstract
The dynamic properties of the atomic nucleus depend strongly on correlations between the nucleons. We present a combined analysis of inelastic electron-scattering data and electron-induced proton knockout measurements in an effort to obtain phenomenological information on nucleon-nucleon correlations. Our results indicate that the ratio of radial wave functions extracted from precise ${}^{10}\mathrm{B}({e,e}^{\ensuremath{'}})$ and ${}^{10}\mathrm{B}({e,e}^{\ensuremath{'}}p)$ measurements evolve from an interior depression for small ${E}_{m}$, characteristic of short-range correlations, to a surface-peaked enhancement for larger ${E}_{m}$, characteristic of long-range correlations. This observation can be interpreted in terms of the nucleon effective mass.
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