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% Seth Brown, Ph.D.
% sethbrown@drbunsen.org
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% title slide definition
\title{Preliminary results on INMAPS}
\author{Alberto Lusiani, Marcin Chrz\k{a}szcz}
\institute[IFJ, INFN, SNS]
\date{$12^{th}$ December 2012}
%--------------------------------------------------------------------
% Introduction
%--------------------------------------------------------------------
\begin{document}
\setbeamertemplate{background}
{\includegraphics[width=\paperwidth,height=\paperheight]{frontpage_bg_mine}}
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\begin{frame}
\vspace{2cm}
\begin{columns}
\column{2.75in}
\titlepage
\begin{center}
\includegraphics[height=1.5cm,keepaspectratio ]{pic/SNS.png}
\hspace{1cm}
\includegraphics[height=1.5cm]{pic/INFN.png}
\hspace{1cm}
\includegraphics[height=1.4cm]{pic/ifj.png}
\end{center}
\column{2.0in}
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\end{frame}
\section[Outline]{}
\begin{frame}
\tableofcontents
\end{frame}
%-------------------------------------------------------------------
% Section 1
%-------------------------------------------------------------------
%
% Set the background for the rest of the slides.
% Insert infoline
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\section{Overview}
\subsection{Test beam facility}
\begin{frame}\frametitle{Test beam facility}
\begin{columns}
\column{2.in}
{~}
\begin{block}{}
\circled{1} Site cern site prevessin . \\
\begin{itemize}
\item $120GeV$ $\pi$ beam.
\end{itemize}
\circled{2} SLIM5 Telescope + DUT
\begin{itemize}
\item 3 CHIPS
\item Angular studies
\item Threshold studies
\end{itemize}
\end{block}
\column{2.5in}
\includegraphics[scale=1]{pic/030.png}
\end{columns}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\subsection{Triggering and pre selection}
\begin{frame}\frametitle{Triggering and pre selection}
For off-line analysis:
{~}
\begin{block}{}
\circled{1} All telescope planes fire.\\
\circled{2} Only one track peer event.\\
\circled{3} Simple alignment $\rightarrow$ minimalising the residuals.\\
\circled{4} DUT alignment done separately.\\
\end{block}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\subsection{Analysis strategy}
\begin{frame}\frametitle{Analysis strategy}
\only<1>
{
\begin{block}{}
\circled{1} Alignment\\
\begin{columns}
\column{2.in}
\begin{itemize}
\item Alignment is done by fitting the residual distribution.
\item PDF used: $f(x)= \alpha Gauss(x; \sigma, \overline{x})+(1-\alpha) c$ where c is const.
\item Free variables: $\sigma$, $\overline{x}$, $\alpha$.
\end{itemize}
\column{3.in}
\includegraphics[scale=0.3]{pic/det6_resid_fit_BLH_x_small_WINDOWS.png}
\end{columns}
\end{block}
}
\only<2>
{
\begin{block}{}
\circled{2} Efficiency\\
\begin{columns}
\column{2.in}
\begin{itemize}
\item Using parameters from the fit we extract number of signal events.
\item We assign a systematic error from fit parameters.
\item Efficiency is calculated using Bayesian formula: \\
$Eff = \dfrac{n+0.5}{t+1}$, where \\
n- number of hits\\
t- number of tracks\\
\end{itemize}
\column{3.in}
\includegraphics[scale=0.3]{pic/det6_resid_fit_BLH_x_small_WINDOWS.png}
\end{columns}
\end{block}
}
\only<3>
{
\begin{block}{}
\circled{3} Fiducial cut\\
\begin{columns}
\column{2.in}
\begin{itemize}
\item Borders of DUT have been seen to be less efficient.
\item 4 pixel fiducial cut around the DUT is used
\end{itemize}
\column{3.in}
\includegraphics[scale=0.45]{pic/draft.png}
\end{columns}
\end{block}
}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\only<4>
{
\begin{block}{}
\circled{3} Noise rate\\
\begin{columns}
\column{2.in}
\begin{itemize}
\item To study noise appearance we select the events that have extrapolate track outside the DUT.
\item Noise rate is defined:\\
$NR=\dfrac{nfp}{ntrks}$ , where\\
$nfp$ is the number of fired pixels, \\
$ntrks$ is the number of tracks.
\end{itemize}
\column{3.in}
\includegraphics[scale=0.45]{pic/draft2.png}
\end{columns}
\end{block}
}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\section{Results}
\subsection{Threshold studies. }
\begin{frame}\frametitle{Efficiency vs threshold}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/eff_chip13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/eff_chip14.png}
\end{columns}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Noise rate}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}\\
\includegraphics[scale=0.36]{pic/inmaps_noise_thr_chip13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}\\
\includegraphics[scale=0.36]{pic/inmaps_noise_thr_chip14.png}
\end{columns}
Thanks to Alberto.
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\subsection{Angular studies. }
\begin{frame}\frametitle{Eff vs. angle}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/Eff_vs_angle_CHIP13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/Eff_vs_angle_CHIP14.png}
\end{columns}
THRESHOLD: $2360 \rightarrow 280e \pm 5 \%$
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Resolution X vs angle}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/ResX_vs_angle_CHIP13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/ResX_vs_angle_CHIP14.png}
\end{columns}
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Resolution Y vs angle}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/ResY_vs_angle_CHIP13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/ResY_vs_angle_CHIP14.png}
\end{columns}
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Multiplicity vs angle}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/Mult_vs_angle_CHIP13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/Mult_vs_angle_CHIP14.png}
\end{columns}
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Multiplicity X vs angle}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/MultX_vs_angle_CHIP13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/MultX_vs_angle_CHIP14.png}
\end{columns}
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Multiplicity Y vs angle}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/MultY_vs_angle_CHIP13.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/MultY_vs_angle_CHIP14.png}
\end{columns}
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Lattice isotropy}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/Eff_map_chip13_4pixcut.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/Eff_map_chip14_4pixelcut.png}
\end{columns}
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Pixel isotropy}
\begin{columns}
\column{2.5in}
\begin{Large} CHIP 13 \end{Large}
\includegraphics[scale=0.21]{pic/Eff_pix_map_chip13_4pixelcut.png}
\column{2.5in}
\begin{Large} CHIP 14 \end{Large}
\includegraphics[scale=0.21]{pic/Eff_pix_map_chip14_4pixelcut.png}
\end{columns}
Before deconvolution the telescope resolution! \\
THRESHOLD: 2360
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Summary}
\begin{itemize}
\item High Efficiency not reached due to high noise.
\item Geometrical structure needs to be optimised.
\item Design still needs some work.
\end{itemize}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}\frametitle{Backup}
\begin{Large}
BACKUP
\end{Large}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\begin{frame}\frametitle{Backup}
\textbf{\includegraphics[scale=0.31]{pic/r315.png}}
\textref{A.Lusiani, M.Chrz\k{a}szcz 2012}
\end{frame}
\end{document}
mchrzasz