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Radial Excitation of \(\Omega _{cc}\) Baryon Using Relativistic Formalism

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Abstract

In this article, the mass spectra of radially excited states of doubly heavy baryons \(\Omega _{cc}\) are calculated under mean field confinement of Martin-like potential with a parametric center of mass correction in an independent quark model with Dirac relativistic formalism. We have predicted the ground state masses as well as radial excitation of \(\Omega _{cc}\) baryon using the optimized fitted potential parameters which are found to be in good agreement with other theoretical models as well as Lattice QCD results. Here, the experimental results are not available in Particle Data Group (PDG) or not with other experimental collaboration. Magnetic moments for \(\Omega _{cc}\) baryon are also calculated in this manuscript. For predicting \((\frac{3}{2}^+)\) and \((\frac{1}{2}^+)\) states, we have incorporated the \(j-j\) coupling in this study.

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Acknowledgements

We acknowledge CHARUSAT for providing all the required facilities in the campus. We would like to thank Gov. of Gujarat for SHODH-MYSY, fellowship (Ref No.: 202101308) for the financial support for Rameshri Patel.

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Author notes

  1. Rameshri Patel has contributed equally to this work.

Authors and Affiliations

  1. Department of Physical Sciences, P. D. Patel Institute of Applied Sciences, Charotar University of Science and Technology (CHARUSAT), Changa, Gujarat, 388421, India

    Manan Shah, Rameshri Patel & P. C. Vinodkumar

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  1. Manan Shah
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  2. Rameshri Patel
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  3. P. C. Vinodkumar
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Correspondence to Manan Shah.

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Shah, M., Patel, R. & Vinodkumar, P.C. Radial Excitation of \(\Omega _{cc}\) Baryon Using Relativistic Formalism. Few-Body Syst 64, 34 (2023). https://doi.org/10.1007/s00601-023-01821-0

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