Mass spectra and radiative transitions of doubly heavy baryons in a relativized quark model

TL;DR

This paper predicts the mass spectra and radiative decay widths of doubly heavy baryons using a relativized quark model, aligning with recent experimental observations and aiding future searches.

Contribution

It introduces a relativized quark model analysis of doubly heavy baryons, providing mass predictions and radiative decay estimates consistent with recent experimental data.

Findings

Predicted mass of $\\Xi_{cc}$ ground state is 3606 MeV.

Mass gap between $\Xi_{cc}^*$ and $\Xi_{cc}$ is 69 MeV.

Radiative decay widths are approximately 7 keV and 4 keV.

Abstract

We study the mass spectra and radiative decays of doubly heavy baryons within the diquark picture in a relativized quark model. The mass of the $J^P=1/2^+$ $\Xi_{cc}$ ground state is predicted to be 3606 MeV, which is consistent with the mass of $\Xi_{cc}^{++}(3621)$ newly observed by the LHCb collaboration. The predicted mass gap between two $S$ wave states, $\Xi_{cc}^*$ ($J^P=3/2^+$) and $\Xi_{cc}$ ($J^P=1/2^+$), is 69 MeV. Furthermore, the radiative transitions of doubly heavy baryons are also estimated by using the realistic wave functions obtained from relativized quark model. The radiative decay widths of $\Xi_{cc}^{*++} \to \Xi_{cc}^{++}\gamma$ and $\Xi_{cc}^{*+} \to \Xi_{cc}^+\gamma$ are predicted to be about 7 and 4 keV, respectively. These predictions of doubly heavy baryons can provide helpful information for future experimental searches.