Baryons 2022 - International Conference on the Structure of Baryons

Radial excitation of $\Omega_{cc}$ baryon using relativistic formalism

Not scheduled

20m

Seville

Parallel contribution Theory for strong QCD

Speakers

Dr Manan Shah (Department of Physical Sciences, P. D. Patel Institute of Applied Sciences, Charotar, University of Science and Technology, CHARUSAT, Changa, 388421, Gujarat, India)Ms Rameshri Patel (Department of Physical Sciences, P D Patel Institute of Applied Sciences, Charotar University of Science & Technology, CHARUSAT, Changa, Anand - 388 421, Gujarat, India.)

Description

The doubly heavy $\Omega_{cc}$ baryon represents a distinctive three quark system because they contain a strange light quark in the combination of two charm quarks. There are new decay modes and excited states seen in doubly charmed baryons by CLEO, LHCb and many other experiments and they have attempted to identify the doubly heavy baryons, but only a few states have been discovered so far.
Here, The mass spectra of radially excited states of doubly heavy baryons are calculated under a mean field confinement of Martin-like potential with a parametric centre of weight 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 predicted data. For predicting $(\frac{3}{2}^+)$ and $(\frac{1}{2}^+)$ states, we have incorporated the $j-j$ coupling in this study.