The effect of strong magnetic field on heavy Quarkonia in a hot medium using Nikiforov-Uvarov Method

TL;DR

This paper investigates how a strong magnetic field influences heavy quarkonium states like charmonium and bottomonium in a hot medium, using the Nikiforov-Uvarov method within a non-relativistic framework.

Contribution

It introduces a model that considers potential isotopes in the quark-static potential to analyze magnetic field effects on quarkonium spectra.

Findings

Magnetic fields significantly alter quarkonium energy levels.

Potential isotopes impact the spectral properties of quarkonia.

Results provide insights into quarkonium behavior in early-stage heavy ion collisions.

Abstract

Recent analyses show that it is possible to produce a strong magnetic field at a very early stage of ultrarelativistic heavy ion collisions (URHIC), therefore, the effect of homogeneity and constant strong magnetic field on the heavy meson spectrum quarkonium is studied which the states are described as charmonium and bottominum in a non-relativistic framework and by Debye screen potential. In particular, a model that takes into account potential isotopes emerging at the level of quark-static potential, as has been observed in recent studies. Investigation is performed with and without regard to the non-isotope of fixed potential, in order to better clarify its effects.