Presentations/Kstmumu/JpsiKstar_brainstorm/Systematics.tex at 6a0bf98f97a8e75d9ae33e3582fe11c635a7f0ea

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Presentations / Kstmumu / JpsiKstar_brainstorm / Systematics.tex
Marcin Chrzaszcz on 26 Feb 2015 4 KB presentation -a
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\documentclass[xcolor=svgnames]{beamer}
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\usepackage{polski}
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\usepackage{hepnicenames}
\usepackage{hepunits}
\usepackage{color}
 
 
 
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%5
\definecolor{mygreen}{cmyk}{0.82,0.11,1,0.25}
 
 
\usetheme{Sybila}
 
\title[$\PB \to \PKstar \PJpsi$ dispair]{$\PB \to \PKstar \PJpsi$ dispair}
\author{Marcin Chrz\k{a}szcz$^{1}$, Nicola Serra$^{1}$}
\institute{$^1$~University of Zurich}
\date{\today}
 
\begin{document}
% --------------------------- SLIDE --------------------------------------------
\frame[plain]{\titlepage}
\author{Marcin Chrz\k{a}szcz}
\institute{~(UZH)}
 
% ------------------------------------------------------------------------------
% --------------------------- SLIDE --------------------------------------------
 
\begin{frame}\frametitle{Geeting the numbers together (MoM)}
\begin{itemize}
\item Consistent with Fit.
\end{itemize}
 
 
\begin{center}
\scalebox{0.55}{
\begin{tabular}{lrrrrrr} \hline
 & \multicolumn{6}{c}{$m_{K\pi}$ range in $MeV/c^2$}\\
parameter & $         [795.9,995.9]$         &    $[825.9,965.9]$     & $[826.0,861.0]$   & $[861.0,896.0]$    & $[896.0,931.0]$  & $[931.0,966.0]$ \\ \hline \hline
$F_l              $ & $0.558     \pm 0.003     $ & $0.558\pm 0.003$  & $0.566\pm 0.006$  & $0.561\pm 0.004$  & $0.549\pm 0.004$  & $0.562\pm 0.005$\\
 
$S_{3}               $ & $0.000     \pm 0.002     $ & $0.001\pm 0.002$  & $-0.006\pm 0.006$  & $0.000\pm 0.004$  & $0.001\pm 0.003$  & $0.004\pm 0.006$  \\
 
$S_{4}               $ & $-0.280    \pm 0.003     $ & $-0.282 \pm 0.004$  & $-0.278\pm 0.007$  & $-0.288\pm 0.005$  & $-0.279\pm 0.004$  & $-0.275\pm 0.006$\\
 
$S_{5}               $ & $-0.002    \pm 0.003     $ & $-0.002\pm 0.003$  & $-0.004\pm 0.007$  & $0.000\pm 0.005$  & $-0.006\pm 0.003$  & $0.003\pm 0.006$  \\
 
$S_6^s              $ & $0.001     \pm 0.003     $ & $0.002\pm 0.003$  & $-0.004\pm 0.008$  & $0.001\pm 0.003$  & $0.003\pm 0.004$  & $0.003\pm 0.005$  \\
 
$S_{7}               $ & $0.001     \pm 0.003     $ & $0.001\pm 0.003$  & $-0.003\pm 0.007$  & $0.001\pm 0.004$  & $0.001\pm 0.004$  & $0.007\pm 0.006$  \\
 
$S_{8}               $ & $-0.053    \pm 0.003     $ & $-0.054\pm 0.003$  & $-0.072\pm 0.008$  & $-0.058\pm 0.004$  & $-0.051\pm 0.004$  & $-0.047 \pm 0.006$  \\
 
$S_{9}               $ & $-0.089    \pm 0.003     $ & $-0.088\pm 0.004$  & $-0.089\pm 0.008$  & $-0.086\pm 0.004$  & $-0.091\pm 0.004$  & $-0.086 \pm 0.006$ \\
 
$F_{S}               $ & $ 0.080     \pm 0.004     $ & $0.068\pm 0.003$  & $0.10\pm 0.012$  & $0.053\pm 0.006$  & $0.061\pm 0.005$  & $ 0.108 \pm 0.009$ \\
 
$S_{S1}              $ & $-0.240    \pm 0.004     $ & $-0.245\pm 0.004$  & $-0.70\pm 0.01$  & $-0.387\pm 0.007$  & $-0.109\pm 0.006$  & $0.160\pm 0.010$  \\
 
$S_{S2}              $ & $0.003     \pm 0.003     $ & $0.007\pm 0.003$  & $0.140\pm 0.008$  & $0.045\pm 0.004$ & $-0.028\pm 0.004$  & $-0.108\pm 0.006$  \\
$S_{S3}              $ & $0.004     \pm 0.003     $ & $0.004\pm 0.003$  & $-0.005\pm 0.007$  & $0.003\pm 0.003$  & $0.004\pm 0.003$  & $0.012\pm 0.006$  \\
$S_{S4}              $ & $0.001     \pm 0.003     $ & $0.001\pm 0.003$  & $0.014\pm 0.008$  & $-0.003\pm 0.003$  & $0.000\pm 0.004$  &  $0.005\pm 0.006$ \\
$S_{S5}              $ & $-0.065    \pm 0.003     $ & $-0.061\pm 0.003$  & $0.040\pm 0.008$  & $-0.027\pm 0.004$  & $-0.091\pm 0.004$  & $-0.157\pm 0.007$  \\
\hline
\end{tabular}
}\label{tab:mom:jpsikstar}
\end{center}
\end{frame}
 
 
\begin{frame}\frametitle{BW}
One cau use formula:
\begin{equation}
F_s= \dfrac{[ ( S_{S1}^{+}+ S_{S1}^-)^2 /16 +  ( S_{S1}^{+}- S_{S1}^-)^2/(16 \times 1.23)]\dfrac{3.24}{3 F_l }  }{1- [ ( S_{S1}^{+}+ S_{S1}^-)^2 /16 +  ( S_{S1}^{+}- S_{S1}^-)^2/(16 \times 1.23)]\dfrac{3.24}{3 F_l }}
\end{equation}
In $\pm 100 \rm MeV/c^2$ $m_{\PK \Ppi}$ one gets: \\ $F_s = 0.060 \pm 0.003$\\
Directly from MoM:\\
$F_s = 0.079 \pm 0.003$
 
\end{frame}
 
 \begin{frame}\frametitle{$\color{white}{S_{s1}}$ as function of $\color{white}{m_{K\pi}}$}  
\begin{columns}
\column{2.5in}
\includegraphics[width=0.95\textwidth]{Swave.png}\\
slope: \texttt{ 4.2e-3 +/- my rooler error}
\column{2.5in}
\includegraphics[width=0.95\textwidth]{Swave_new.png}\\
slope: \texttt{ 4.69342e-03 +/-   4.13931e-04 }
\end{columns}
 
 
\end{frame}
 
 
\begin{frame}
\frametitle{To Do}
\begin{enumerate}
\item Things that I would like to check:
\begin{itemize}
\item Check if LL fit has the same slope.
\item Check what will happen with folding.
\item What will happen after having aligment cut.
\item More ideas welcome!
\end{itemize}
\end{enumerate}
 
\end{frame}
 
 
 
\end{document}