Nucleon-Nucleon Correlations, Short-lived Excitations, and the Quarks Within

TL;DR

This paper reviews how nucleon internal structure is altered in nuclei, linking the EMC effect and short-range correlations through high-density nucleon fluctuations, and highlights the need for further experimental and theoretical work.

Contribution

It presents a new analysis connecting the EMC effect with nucleon-nucleon short-range correlations via high-density nucleon fluctuations.

Findings

A phenomenological relation between EMC effect and SRC.

Correlated neutron-proton pairs cause internal nucleon modifications.

High-density fluctuations briefly alter nucleon structure.

Abstract

This article reviews our current understanding of how the internal quark structure of a nucleon bound in nuclei differs from that of a free nucleon. We focus on the interpretation of measurements of the EMC effect for valence quarks, a reduction in the Deep Inelastic Scattering (DIS) cross-section ratios for nuclei relative to deuterium, and its possible connection to nucleon-nucleon Short-Range Correlations (SRC) in nuclei. Our review and new analysis (involving the amplitudes of non-nucleonic configurations in the nucleus) of the available experimental and theoretical evidence shows that there is a phenomenological relation between the EMC effect and the effects of SRC that is not an accident. The influence of strongly correlated neutron-proton pairs involving highly virtual nucleons is responsible for both effects. These correlated pairs are temporary high-density fluctuations in the nucleus in which the internal structure of the nucleons is briefly modified. This conclusion needs to be solidified by the future experiments and improved theoretical analyses that are discussed herein.