Excited Heavy Baryons and Their Symmetries III: Phenomenology
Abstract
Phenomenological applications of an effective theory of low-lying excited states of charm and bottom isoscalar baryons are discussed at leading and next-to-leading order in the combined heavy quark and large Nc expansion. The combined expansion is formulated in terms of the counting parameter λ 1/mQ, 1/Nc; the combined expansion is in powers of λ1/2. We work up to next-to-leading order. We obtain model-independent predictions for the excitation energies, the semileptonic form factors and electromagnetic decay rates. The spin-averaged mass of the doublet of the first orbitally excited sate of b is predicted to be approximately 5920 MeV. It is shown that in the combined limit at leading and next-to-leading order there is only one independent form factor describing b c ; similarly, b c* and b c1 decays are described by a single independent form factor. These form factors are calculated at leading and next-to-leading order in the combined expansion. The electromagnetic decay rates of the first excited states of c and b are determined at leading and next-to leading order. The ratio of radiative decay rates (c* c γ) / (b1 b γ) is predicted to be approximately 0.2, greatly different from the heavy quark effective theory value of unity.
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