Structure-dependent QED in B − → ℓ − ν ¯ γ $$ {B}^{-}\to {\ell}^{-}\overline{\nu}\left(\gamma \right) $$

Abstract

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Abstract Based on explicitly gauge invariant interpolating operators we compute complete next-leading order QED-corrections for leptonic decays. These are sizeable since the helicity-suppression in V-A interactions allows for structure-dependent collinear logs. We have explicitly checked that these logs are absent for helicity-unsuppressed Yukawa-type transitions. Based on B → γ form factors we present the rates for B − → μ − τ − ν ¯ γ $$ {B}^{-}\to \left({\mu}^{-},{\tau}^{-}\right)\overline{\nu}\left(\gamma \right) $$ in differential and integrated form as a function of the photon energy cut-off E γ cut $$ {E}_{\gamma}^{\textrm{cut}} $$ . The effect of the virtual structure-dependent corrections are approximately +5% and +3% for the μ- and τ-channel respectively. The structure dependence of the real radiation exceeds that of the virtual one for E γ cut μ $$ {\left.{E}_{\gamma}^{\textrm{cut}}\right|}_{\mu } $$ > 0.18(3) GeV and is subdominant for the tau channel even when fully inclusive.

Keywords

• Bottom Quarks
• Precision QED