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Patrick Janot edited Statistical analysis.tex
about 9 years ago
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\begin{equation}
\sigma(\delta_i) = \sqrt{ [ V^{-1} ]_{ii} } \ .
\end{equation}
This analytical procedure is used in Ref.~\cite{Grzadkowski_2000} to determine the sensitivity to top-quark electroweak couplings in $500\,{\rm fb}^{-1}$ of ${\rm e^+ e^-}$ collisions at $\sqrt{s} = 500$\,GeV. In this article, the authors use Eq.~\ref{eq:rate}, but they let the total number of events float by adding a fictitious form factor $\delta_0$ in front of
$S^0$. $S^0$, hence increase the rank of the covariance matrix from 8 to 9. It was
numerically checked that this work-around is
numerically equivalent to using Eq.~\ref{eq:norate}, {\it i.e.}, to not use the total event rate in the likelihood.
It can be seen from Fig.~\ref{fig:distributions}, however, that $f_A^\gamma(x,\cos\theta)$ (top-left corner) is almost degenerate with the standard model contributions $S^0(x,\cos\theta)$. Letting the normaization of the standard model contribution float is therefore bound to lead to large statistical uncertainties on all form factors, as is observed in Ref.~\cite{Grzadkowski_2000}.