Abstract
We present the masses of N baryons up to 3300 MeV. The radial and orbital excited states are determined using hypercentral constituent quark model with the first-order correction. The obtained masses are compared with the experimental results and other theoretical predictions. The Regge trajectories are also determined in (n, ) and (J, ) planes. Moreover, the magnetic moments with are calculated. We also calculates the decay width of excited nucleons.
Highlights
The evaluation of the static and dynamic properties of the hadrons have always been a main concern of theoretical and experimental community of nuclear and particle physics
The light baryons can be in the following multiplets: 10S ⊕ 8M ⊕ 8M ⊕ 1A
Some more three and four star baryons are mentioned in PDG(2018) [4], such as, N(1650), N(1675), N(1700), N(1900)
Summary
The evaluation of the static and dynamic properties of the hadrons have always been a main concern of theoretical and experimental community of nuclear and particle physics. The different experimental groups are providing light baryon resonances with increasing confidence level of these states [1,2,3,4]. These experimental observations have created renewed interest to study light baryon spectra(radial as well as orbital excited states) theoretically. After obtaining masses we determined the several hadronic properties using these masses
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