Connection between missing-charge in quasielastic electron scattering and two(one) proton knockout reactions and the island-of-inversion

TL;DR

This paper presents a QCD-based model emphasizing triton clustering to explain missing charge in quasielastic electron scattering and phenomena in exotic nuclei, providing a unified understanding of diverse nuclear data.

Contribution

It introduces a model that links triton clustering with observed nuclear phenomena, offering a new perspective on nuclear structure and reactions.

Findings

Successful explanation of missing charge in electron scattering

Unified understanding of exotic nuclear data

Supports triton clustering as a key nuclear degree of freedom

Abstract

Our model, based on Quantum Chromodynamics, emphasizes the role of triton clustering in nuclei. As there is good empirical support of triton clustering in nuclei, we may even treat this as a good phenomenological working hypothesis as well. Here we show how our model finds remarkable success in being able to provide a consistent and interconnected understanding of such diverse empirical realities as the missing electric-charge in quasielastic electron scattering, and simultaneously, also the puzzling data within the studies of exotic nuclei. This gives us confidence, that our model should be taking account of the correct and proper degrees of freedom, to physically specify and explain, the total physical reality as manifested in the nuclear medium.