Pietro Biancofiore, Pietro Colangelo, Fulvia De Fazio
We study the radiative $B \to K \eta^{(\prime)} \gamma$ decays, which are
important to investigate CP violation, and are also relevant to assess the role
of the exclusive modes induced by the $b \to s \gamma$ transition to saturate
the inclusive $B \to X_s \gamma$ decay rate. Moreover, these channels do not
display the same hierarchy as $B \to K \eta^{(\prime)}$ modes, for which the
decay into $\eta^\prime$ is enhanced with respect to one into $\eta$. The
three-body radiative decays reverse the role: we find that this experimentally
observed behaviour (although affected by a large uncertainty in the case of the
$\eta^\prime$) is reproduced in the theoretical analysis. We compute a $B^* \to
K$ form factor, needed for this study, using light-cone QCD sum rules, and
discuss a relation expected to hold in the large energy limit for the light
meson. Finally, we examine $B\to K \eta \gamma$ in two extensions of the
standard model with universal extra dimensions, to obtain bounds for the
compactification radii of such new physics models.
View original:
http://arxiv.org/abs/1202.2289
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