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% title slide definition
\title{$\Lambda_c \to p \mu \mu$ , $\Lambda_c \to \mu \mu \mu$}
%\subtitle{a bias report}
\author{Johannes Albrecht$^{1}$, \underline{Marcin Chrz\k{a}szcz}$^{2,3}$, Tadeusz Lesiak$^{3}$, Oliver Grunberg$^{4}$}
\institute[UTH]
{
$ ^1$ Technische Universitaet Dortmund \\
$ ^2$ University of Zurich \\
$ ^3$ Institute of Nuclear Physics, Krakow \\
$ ^4$ University of Rostock \\
}
\date{$8^{th}$ May 2013}
%--------------------------------------------------------------------
% Introduction
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\begin{document}
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% OUTLINE
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\section[Outline]{}
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\tableofcontents
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%-------------------------------------------------------------------
% Introduction
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\title{Report on $\tau \to p \Plepton \Plepton$}
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\section{Motivation}
\begin{frame}\frametitle{Motivation}
\begin{small}
Following the success of $\tau \to 3 \mu$ and $\tau \to p \mu \mu$ (published 2 weeks ago) we decided to go one step further and analyse analogous channels for $\Lambda_c$.
\begin{itemize}
\item Decays have different physics motivations:
\end{itemize}
\begin{center}
\begin{tabular}{ l | l }
$\tau \to 3 \mu$ LFV & $\Lambda_c \to 3 \mu$ $|B-L|= 0$ \\
$\tau^{+} \to p \mu^{-} \mu^{+} $ $|B-L|= 0$ & $\Lambda_c^{+} \to p \mu^{-} \mu^{+} $ FCNC \\
$\tau^{+} \to \bar{p} \mu^{+} \mu^{+} $ $|B-L|= 0$ & $\Lambda_c^{+} \to \bar{p} \mu^{+} \mu^{+} $ $|B-L|= 0$ \\
\end{tabular}
\end{center}
\begin{itemize}
\item The current limits ($@$ 90\% CL):
\end{itemize}
$\mathcal{B}( \Lambda_c^{+} \to p \mu^{-} \mu^{+} ) < 4.4 \times 10^{-5}$, arXiv:1107.4465
\newline
$\mathcal{B}( \Lambda_c^{+} \to \bar{p} \mu^{+} \mu^{+} ) < 9.4 \times 10^{-6}$
\newline
$\mathcal{B}( \Lambda_c^{+} \to 3 \mu )$ No constraints!
\end{small}
\textref {M.Chrz\k{a}szcz 2012}
\end{frame}
\section{Strategy}
\begin{frame}
\frametitle{Strategy}
{~}
Follow the strategy of $\tau$ analysis:
\begin{itemize}
\item Take prompt $\Lambda_c$, separate approach to SL.
\item Loose cut preselection.
\item Train MVA on MC prompt signal and recalibrate on data.
\item Mass resolution we expect similar to $\tau$. $15 MeV$ for $3 \mu$ and $9 Mev$ for $p \mu \mu$. Mean recalibrated from data on $\Lambda_c^{+} \to p K^{-} \pi^{+}$.
\item Normalize to $\Lambda_c^{+} \to p K^{-} \pi^{+}$.
\item Optimise the binning in MVA.
\item CLs method for limit.
\end{itemize}
\end{frame}
\section{Comparison $\Lambda_c$ vs $\tau$}
\begin{frame}\frametitle{Comparison $\Lambda_c$ vs $\tau$}
\colorbox{green}{Strong sides of $\Lambda_c$:}
\begin{itemize}
\item {No SM background in $3 \mu$ case ($\PDs \to \eta(\mu\mu\gamma) \mu \nu$)}
\item {Smaller combinatorial background than in $\tau$ decays. \Simley{1} }
%\item {Better prospers of observing something. Rare is better than forbidden \Simley{1} }
\end{itemize}
\colorbox{red}{Weaker sides of $\Lambda_c$:}
\begin{itemize}
\item {Smaller no. of $\Lambda_c$ than $\tau$ to begin with.}
\item {Need to study very carefully $\Lambda_c$ production and backgrounds. }
\Simley{-1}
\end{itemize}
\end{frame}
\section{Work done so far}
\begin{frame}\frametitle{Work done so far}
\begin{itemize}
\item $\Lambda_c \to p \mu \mu$ is already stripped(line was with $\tau$ line all along).
\item $\Lambda_c \to 3\mu$ is being stripped in incremental stripping.
\item Requested 1M signal samples. Production will start next weak.
\item Background studies. (see backup slides).
\end{itemize}
\end{frame}
\begin{frame}
\begin{LARGE}
Backup Slides
\end{LARGE}
\end{frame}
\subsection{}
\begin{frame}\frametitle{Work done so far}
\begin{itemize}
\item $\Lambda_c \to p \mu \mu$ is already stripped(line was with $\tau$ line all along).
\item $\Lambda_c \to 3\mu$ is being stripped in incremental stripping.
\item Requested 1M signal samples. Production will start next weak.
\item Background studies. (see backup slides).
\end{itemize}
\end{frame}
\end{document}
Marcin Chrzaszcz