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New Physics in the Visible Final States of Bto D^((*))τν

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arxiv 1610.02045 v2 pith:ICI4N3TH submitted 2016-10-06 hep-ph hep-ex

New Physics in the Visible Final States of Bto D^((*))τν

classification hep-ph hep-ex
keywords physicseffectsinterferencekinematicphasespaceanalysesdecay
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We derive compact expressions for the helicity amplitudes of the many-body $B \to D^{(*)}(\to DY)\tau(\to X\nu)\nu$ decays, specifically for $X = \ell \nu$ or $\pi$ and $Y = \pi$ or $\gamma$. We include contributions from all ten possible new physics four-Fermi operators with arbitrary couplings. Our results capture interference effects in the full phase space of the visible $\tau$ and $D^*$ decay products which are missed in analyses that treat the $\tau$ or $D^*$ or both as stable. The $\tau$ interference effects are sizable, formally of order $m_\tau/m_B$ for the standard model, and may be of order unity in the presence of new physics. Treating interference correctly is essential when considering kinematic distributions of the $\tau$ or $D^*$ decay products, and when including experimentally unavoidable phase space cuts. Our amplitude-level results also allow for efficient exploration of new physics effects in the fully differential phase space, by enabling experiments to perform such studies on fully simulated Monte Carlo datasets via efficient event reweighing. As an example, we explore a class of new physics interactions that can fit the observed $R(D^{(*)})$ ratios, and show that analyses including more differential kinematic information can provide greater discriminating power for new physics, than single kinematic variables alone.

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Cited by 4 Pith papers

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