Deuteron potential using the noncritical holographic model

Litao Song; Yongxin Liu; and Jie He

arXiv:1604.05620·nucl-th·April 27, 2016

Deuteron potential using the noncritical holographic model

Litao Song, Yongxin Liu, and Jie He

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TL;DR

This paper models the deuteron nucleus using a noncritical holographic QCD approach, calculating its potential energy and analyzing meson contributions to understand its binding energy.

Contribution

It introduces a novel application of noncritical holographic QCD to compute deuteron potential energy and examines meson effects in this context.

Findings

01

Deuteron potential energy calculated within the holographic model.

02

Binding energy estimated from the potential energy minimum.

03

Detailed discussion of meson roles in deuteron formation.

Abstract

Deuteron has been studied using a noncritical holographic quantumchromodynamics model constructed in the six-dimensional Anti-de-Sitter supergravity background. The nucleus potential energy is calculated. The binding energy has been estimated as the minimum of the potential energy. The roles of various mesons in producing the deuteron potential energy are discussed in details.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · Quantum, superfluid, helium dynamics · Black Holes and Theoretical Physics