Abstract
Inspired by the recent discovery of the $\Xi_{cc}^{++}$ by the LHCb Collaboration, we study the magnetic moments of the spin-1/2 doubly charmed baryons up to the next-to-leading order in covariant baryon chiral perturbation theory with the extended-on-mass-shell renormalization scheme. There are three low energy constants at this order, $a_1$, $a_2$ and $g_a$. The latest lattice QCD simulations allow us to fix a combination of $a_1$ and $a_2$, while the axial-vector coupling $g_a$ can be determined in three different ways, either by fitting to the lattice QCD data, or by the quark model, or by the heavy antiquark diquark symmetry. The magnetic moments of the spin-1/2 doubly charmed baryons $\Xi^d_{cc}$ and $\Xi^s_{cc}$ can then be predicted. We compare our results with those obtained in the heavy baryon chiral perturbation theory and other approaches, and point out some inconsistencies between the lattice QCD simulations and the quark model.
Highlights
The doubly charmed baryons, Ξucc, Ξdcc, and Ξscc, are composed of two charm quarks and one light quark
They have been calculated in heavy baryon chiral perturbation theory (HB Chiral perturbation theory (ChPT)) [18] and QCD sum rules [19]
We will study the magnetic moments of the spin-1=2 doubly charmed baryons up to the next-to-leading order (NLO) in covariant baryon chiral perturbation theory (BChPT) with the extended-on-massshell (EOMS) renormalization scheme
Summary
The doubly charmed baryons, Ξucc, Ξdcc, and Ξscc, are composed of two charm quarks and one light quark. The LHCb Collaboration observed another doubly charmed baryon state Ξþccþ with a mass of 3621.4 Æ 0.78 MeV, which has inspired many theoretical studies on its weak [3,4,5], strong, and radiative decays [6,7,8]. Many phenomenological models have been used to study the magnetic moments of Ξcc [9,10,11,12,13,14,15,16,17] They have been calculated in heavy baryon chiral perturbation theory (HB ChPT) [18] and QCD sum rules [19].
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