Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2005-02-25
Phys.Rev.D72:014006,2005
Physics
High Energy Physics
High Energy Physics - Phenomenology
23 pages, 1 figure. Table I is updated with the new Belle measurements. Detailed discussions on theoretical uncertainties are
Scientific paper
10.1103/PhysRevD.72.014006
Motivated by the recent indications of the possibility of sizable deviations of the mixing-induced CP violation parameter, $S_f$, in the penguin-dominated $b\to sq\bar q$ transition decays such as $B^0\to (\phi,\omega,\rho^0,\eta',\eta,\pi^0,f_0)K_S$ from $\sin 2\beta$ determined from $B\to J/\psi K_S$, we study final-state rescattering effects on their decay rates and CP violation. Recent observations of large direct CP asymmetry in modes such as $B^0\to K^+\pi^-,\rho^-\pi^+$ means that final state phases in 2-body B decays may not be small. It is therefore important to examine these long-distance effects on penguin-dominated decays. Such long-distance effects on $S_f$ are found to be generally small [i.e. ${\cal O}(1-2%)$] or negligible except for the $\omega K_S$ and $\rho^0K_S$ modes where $S_f$ is lowered by around 15% for the former and increased by the same percentage for the latter. However, final-state rescattering can enhance the $\omega K_S, \phi K_S, \eta'K_S, \rho^0K_S$ and $\pi^0K_S$ rates significantly and flip the signs of direct CP asymmetries of the last two modes. Direct CP asymmetries in $\omega K_S$ and $\rho^0K_S$ channels are predicted to be $\A_{\omega K_S}\approx -0.13$ and $\A_{\rho^0K_S}\approx 0.47$, respectively. However, direct CP asymmetry in all the other $b\to s$ penguin dominated modes that we study is found to be rather small (a few percents), rendering these modes a viable place to search for the CP-odd phases beyond the standard model.
Cheng Hai-Yang
Chua Chun-Khiang
Soni Amarjit
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