String-breaking of the triply heavy baryon at finite temperature and chemical potential

TL;DR

This paper uses gauge/gravity duality to analyze how temperature and chemical potential affect string-breaking distances in triply heavy baryons, revealing geometry-dependent behaviors.

Contribution

It introduces a dual-configuration analysis of triply heavy baryons at finite temperature and chemical potential, highlighting geometry-specific string-breaking dynamics.

Findings

String-breaking distance decreases then increases with temperature/chemical potential in collinear geometry.

String-breaking distance steadily increases in equilateral triangle geometry.

Insights into baryon configuration effects on string-breaking behavior.

Abstract

In this work, we use gauge/gravity duality to study potential energy and string-breaking of triply heavy baryons at finite temperature and chemical potential. Two different possible configurations of triply heavy baryon are considered. The effect of temperature and chemical potential on string-breaking distance is investigated. With increasing temperature/chemical potential, the sting-breaking distance decreases and then increases in symmetric collinear geometry while steadily increasing in equilateral triangle geometry. Our study provides insights into triply heavy baryon configuration and string-breaking behavior.