Add to ORKG26 pages, 1 figureIn this paper, we study the nucleon energy spectrum in the ground-state (with orbital momentum L=0) and the first excited state (L=1). The aim of this study is to find the mass and mixing angles of excited nucleons using a potential model describing QCD. This potential is of the "Coulombian + linear" type and we take into account some relativistic effects, namely we use essentially a relativistic kinematic necessary for studying light flavors. By this model, we found the proton and $\Delta (1232)$ masses respectively equal to ($968MeV$, $1168MeV$), and the masses of the excited states are between $1564MeV$ and $1607MeV$
The ground-state and first-excited-state masses of $\Omega_{b}$ and $\Omega_{bb}$ baryons are calcul...
In the present work, the nonrelativistic quark model is applied to study baryon systems, where the c...
We present the first Dyson-Schwinger equation calculation of the light hadron spectrum that simultan...
26 pages, 1 figureIn this paper, we study the nucleon energy spectrum in the ground-state (with orbi...
We briefly describe the 1/Nc expansion method for studying baryon masses. Two approaches of the larg...
The spectrum of the SU(2) flavor baryons is studied in the frame of a relativistic chiral quark pote...
The spectrum of ground state and excited baryons (N, Δ, Λ, Σ, Ξ, and Ω particles) has been investiga...
The spectrum of the SU(2) flavor baryons is studied in the frame of a relativistic chiral quark pote...
A new scheme of state classification is proposed and applied to analyze masses of the heavy baryons ...
The mass spectra of the ground state and excited heavy baryons consisting of two light (u, d, s) and...
Mass spectra of excited states of the singly charmed baryons are calculated using the hypercentral d...
We present the first Dyson-Schwinger equation calculation of the light hadron spectrum that simultan...
For a deeper insight into the mechanisms of non-perturbative QCD it is essential to understand the e...
For a deeper insight into the mechanisms of non-perturbative QCD it is essential to understand the e...
We investigate the light-quarkonium spectrum using a covariant Dyson–Schwinger–Bethe–Salpeter-equati...
The ground-state and first-excited-state masses of $\Omega_{b}$ and $\Omega_{bb}$ baryons are calcul...
In the present work, the nonrelativistic quark model is applied to study baryon systems, where the c...
We present the first Dyson-Schwinger equation calculation of the light hadron spectrum that simultan...
26 pages, 1 figureIn this paper, we study the nucleon energy spectrum in the ground-state (with orbi...
We briefly describe the 1/Nc expansion method for studying baryon masses. Two approaches of the larg...
The spectrum of the SU(2) flavor baryons is studied in the frame of a relativistic chiral quark pote...
The spectrum of ground state and excited baryons (N, Δ, Λ, Σ, Ξ, and Ω particles) has been investiga...
The spectrum of the SU(2) flavor baryons is studied in the frame of a relativistic chiral quark pote...
A new scheme of state classification is proposed and applied to analyze masses of the heavy baryons ...
The mass spectra of the ground state and excited heavy baryons consisting of two light (u, d, s) and...
Mass spectra of excited states of the singly charmed baryons are calculated using the hypercentral d...
We present the first Dyson-Schwinger equation calculation of the light hadron spectrum that simultan...
For a deeper insight into the mechanisms of non-perturbative QCD it is essential to understand the e...
For a deeper insight into the mechanisms of non-perturbative QCD it is essential to understand the e...
We investigate the light-quarkonium spectrum using a covariant Dyson–Schwinger–Bethe–Salpeter-equati...
The ground-state and first-excited-state masses of $\Omega_{b}$ and $\Omega_{bb}$ baryons are calcul...
In the present work, the nonrelativistic quark model is applied to study baryon systems, where the c...
We present the first Dyson-Schwinger equation calculation of the light hadron spectrum that simultan...