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Electromagnetic structure of the low-lying baryons in covariant chiral perturbation theory

We report a calculation of the low-lying baryon magnetic moments using covariant chiral perturbation theory within the extended-on-mass-shell renormalization scheme including intermediate octet and decuplet contributions. For the case of the baryon octet, we succeed to improve the Coleman-Glashow description by including the leading SU(3)$_F$-breaking effects coming from the lowest-order loops. We compare with previous attempts at the same order using heavy-baryon and covariant infrared chiral perturbation theory, and discuss the source of the differences. For the case of the decuplet-baryons we fix the only unknown LEC with the well measured magnetic dipole moment of the $Ω^-$ and predict the corresponding ones of the $Δ(1232)$ isospin multiplet. In particular we obtain $μ_{Δ^{++}}=6.0(6) μ_N$ and $μ_{Δ^{+}}=2.84(34) μ_N$ that compare well with the current experimental information.

preprint2009arXivOpen access
J. Martin CamalichL. Alvarez-RusoL. S. GengM. J. Vicente Vacas
hep-ph
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J. Martin CamalichL. Alvarez-RusoL. S. GengM. J. Vicente Vacas

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