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-Abstract
Fourier Grid Hamiltonian method in the framework of the nonrelativistic model is a way to study the charmonium states (cc ̅) based on microscopic effective quark interactions. The newly resulting spectrum doesn't need any renormalization to fit the experimental and recent published theoretical spectra. Furthermore, theoretical calculations are in good agreements with existing experimental data.
Fourier Grid Hamiltonian method in the framework of the nonrelativistic model is a way to study the charmonium states (cc ̅) based on microscopic effective quark interactions. The newly resulting spectrum doesn't need any renormalization to fit the experimental and recent published theoretical spectra. Furthermore, theoretical calculations are in good agreements with existing experimental data.
Fourier Grid Hamiltonian method in the framework of the nonrelativistic model is a way to study the charmonium states (cc ̅) based on microscopic effective quark interactions. The newly resulting spectrum doesn't need any renormalization to fit the experimental and recent published theoretical spectra. Furthermore, theoretical calculations are in good agreements with existing experimental data.
DOI
10.21608/ejphysics.2020.42912.1054
Keywords
Fourier Grid Hamiltonian, the nonrelativistic model, charmonium states
Authors
MiddleName
-Affiliation
Department of Physics, Al–Azhar University, 71524 Assiut, Egypt
City
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-MiddleName
-Affiliation
Department of physics, faculty of science, south valley university, Qena, Egypt
Email
mohe1112013@gmail.com
City
-Orcid
-MiddleName
-Affiliation
Department of physics, faculty of science, south valley university, Qena, Egypt
City
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-Link
https://ejphysics.journals.ekb.eg/article_128736.html
Detail API
https://ejphysics.journals.ekb.eg/service?article_code=128736
Publication Title
Egyptian Journal of Physics
Publication Link
https://ejphysics.journals.ekb.eg/
MainTitle
Calculation of Charmonium Mass Spectrum Within the Fourier Grid Hamiltonian Method