Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2001-08-17
Phys.Lett. B521 (2001) 7-14
Physics
High Energy Physics
High Energy Physics - Phenomenology
sign of $f_T$ corrected; new table and figures
Scientific paper
10.1016/S0370-2693(01)01203-5
We consider the structure-dependent amplitude of the decay $B_s \to l^+ l^- \gamma$ $(l=e,\mu)$ in a model based on the effective Hamiltonian for $b \bar{s} \to l^+ l^-$ containing the Wilson coefficients $C_7,C_9$ and $C_{10}$. The form factors characterising the matrix elements $< \gamma | \bar{s} \gamma_\mu (1 \mp \gamma_5) b | \bar{B}_s>$ and $< \gamma | \bar{s} \sigma_{\mu\nu} (1 \mp \gamma_5) b | \bar{B}_s>$ are taken to have the universal form $f_V \approx f_A \approx f_T \approx f_{B_s} M_{B_s} R_s / (3 E_\gamma)$ suggested by recent work in QCD, where $R_s$ is a parameter related to the light cone wave function of the $B_s$ meson. Simple expressions are obtained for the charge asymmetry $A(x_\gamma)$ and the photon energy spectrum $d \Gamma/ d x_\gamma (x_\gamma = 2 E_\gamma/M_{B_s})$. The decay rates are calculated in terms of the decay rate of $B_s \to \gamma \gamma$. The branching ratios are estimated to be $Br(B_s \to e^+ e^- \gamma) = 2.0 \times 10^{-8}$ and $Br(B_s \to \mu^+ \mu^- \gamma) = 1.2 \times 10^{-8}$, somewhat higher than earlier estimates.
Dincer Yusuf
Sehgal Lalit M.
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