Combined large-Nc and heavy-quark operator analysis for the chiral Lagrangian with charmed baryons

Abstract

The chiral SU(3) Lagrangian with charmed baryons of spin JP=1/2+ and JP=3/2+ is analyzed. We consider all counter terms that are relevant at next-to-next-to-next-to-leading order (N3LO) in a chiral extrapolation of the charmed baryon masses. At N2LO we find 16 low-energy parameters. There are 3 mass parameters for the anti-triplet and the two sextet baryons, 6 parameters describing the meson-baryon vertices and 7 symmetry breaking parameters. The heavy-quark spin symmetry predicts four sum rules for the meson-baryon vertices and degenerate masses for the two baryon sextet fields. Here a large-Nc operator analysis at NLO suggests the relevance of one further spin-symmetry breaking parameter. Going from N2LO to N3LO adds 17 chiral symmetry breaking parameters and 24 symmetry preserving parameters. For the leading symmetry conserving two-body counter terms involving two baryon fields and two Goldstone boson fields we find 36 terms. While the heavy-quark spin symmetry leads to 36-16=20 sum rules, an expansion in 1/Nc at next-to-leading order (NLO) generates 36-7= 29 parameter relations. A combined expansion leaves 3 unknown parameters only. For the symmetry breaking counter terms we find 17 terms, for which there are 17-9=8 sum rules from the heavy-quark spin symmetry and 17-5=12 sum rules from a 1/Nc expansion at NLO.