The issue of Lorentz fine-tuning in effective theories containing
higher-order operators is studied. To this end, we focus on the Myers-Pospelov
extension of QED with dimension-five operators in the photon sector and
standard fermions. We compute the fermion self-energy at one-loop order
considering its even and odd CPT contributions. In the even sector we find
small radiative corrections to the usual parameters of QED which also turn to
be finite. In the odd sector the axial operator is shown to contain
unsuppressed effects of Lorentz violation leading to a possible fine-tuning. We
use dimensional regularization to deal with the divergencies and a generic
preferred four-vector. Taking the first steps in the renormalization procedure
for Lorentz violating theories we arrive to acceptable small corrections
allowing to set the bound ξ<6×10−3.Comment: 11 pages, new version with the correct pole extractio