Nonet symmetry in η, η^{\prime} and B\to Kη,Kη^{\prime} decays

Details Nonet symmetry in η, η^{\prime} and B\to Kη,Kη^{\prime} decays Nonet symmetry in η, η^{\prime} and B\to Kη,Kη^{\prime} decays

2007-10-12

arxiv.org/abs/0710.2412v3

Phys.Rev.D77:014024,2008; Erratum-ibid.D77:019905,2008

Physics

High Energy Physics

High Energy Physics - Phenomenology

13 pages, minor typos corrected (references), PRD version

Scientific paper

10.1103/PhysRevD.77.014024

The nonet symmetry scheme seems to describe rather well the masses and $\eta-\eta^{\prime}$ mixing angle of the ground state pseudo-scalar mesons. It is expected that nonet symmetry should also be valid for the matrix elements of the pseudo-scalar densitty operators which play an important role in charmless two-body B decays with $\eta$ or $\eta^{\prime}$ in the final state. Starting from the divergences of the SU(3) octet and singlet axial vector currents, we show that nonet symmetry for the pseudo-scalar mass term implies nonet symmetry for the pseudo-scalar density operators. In this nonet symmetry scheme, we find that the branching ratio $B\to PP,PV$, with $\eta$ in the final state agrees well with data, while those with $\eta'$ are underestimated, but by increasing the $B\to \eta'$ form factor by $40-50%$, one could explain the tree-dominated $B^{-}\to \pi^{-}\eta'$ and $B^{-}\to \rho^{-}\eta'$ measured branching ratios. With this increased form factor and with only a moderate annihilation contribution, we are able to obtain $62\times 10^{-6}$ for the penguin-dominated $B^{-}\to K^{-}\eta'$ branching ratios, quite close to the measured value. This supports the predicted value for the $B\to \eta'$ form factor in PQCD and light-cone sum rules approach. A possible increase by 15% of $<0|\bar{s} i\gamma_5 s|s\bar{s}>$ for $\eta_{0} $ would bring the predicted $B^{-}\to K^{-}\eta'$ branching ratio to $69.375\times 10^{-6}$, very close to experiment.

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