Masses of Single, Double and Triple Heavy baryons in the Hyper-Central Quark Model by Using GF-AEIM

TL;DR

This paper calculates the masses of various heavy baryons using a hyper-central quark model with two potential cases, employing GF-AEIM to solve the hyper-radial Schrödinger equation, achieving results consistent with experimental data.

Contribution

It introduces the use of GF-AEIM to solve the hyper-radial Schrödinger equation for heavy baryons in a hyper-central quark model, considering different potential interactions.

Findings

Results agree well with experimental data.

Mass calculations are improved over previous models.

Method effectively handles complex potential cases.

Abstract

In this paper, we calculate single, double and triple heavy baryons masses using hyper-central approach in the two cases. The first case, considering potential is a combination of Coulombic, linear confining and harmonic oscillator terms. The second case, we add the hyperfine interaction. The hyper-radial Schrodinger equation in the two cases is solved to obtain energy eigenvalues and the baryonic wave function by using the generalized fractional analytical iteration method (GF-AEIM). The present results are a good agreement with experimental data and are improved with other recent works.