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newSW_viazlo_may29_2018.tex
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newSW_viazlo_may29_2018.tex
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\documentclass[8pt]{beamer}
\newif\ifplacelogo % create a new conditional
\placelogotrue % set it to true
\usetheme{Warsaw}
\usecolortheme{rose}
\usepackage{multicol}
\usepackage{epstopdf}
\usepackage[italic]{hepnames}
\usepackage{tikz}
\usepackage{listings}
\usepackage{times}
\usepackage{amsmath}
\usepackage{verbatim}
\usepackage{hyperref}
\usepackage{bbding}
\usepackage{gensymb}
\usepackage{upgreek}
\lstset{breakatwhitespace,
language=C++,
columns=fullflexible,
keepspaces,
breaklines,
tabsize=3,
showstringspaces=false,
extendedchars=true}
% TikZ includes!!!
\usepackage{tikz}
\usetikzlibrary{backgrounds}
\usetikzlibrary{calc}
\tikzstyle{every picture}+=[remember picture]
\input{/home/oviazlo/Desktop/beamerPresentations/myReports/latexHelpScripts/tikzGrid.tex}
\begin{document}
% custom colors
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\graphicspath{ {/home/oviazlo/Desktop/beamerPresentations/FCCee/pictures/CALOR2018/} }
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% For nice block (provided by Oleh)
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% poster advertisement
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\tikzstyle{fancytitle} =[fill=white!15, text=black]
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% poster advertisement
\title[Software compensation \hspace{19.0em}\insertframenumber/
\inserttotalframenumber]{ Software compensation }
\author[Oleksandr Viazlo]{Oleksandr Viazlo\\
{\small }
}
\institute{\small CERN\\}
\date{29 May 2018}
% \logo{ \ifplacelogo \includegraphics[height=1.8cm]{./ID_week2/lund_uni-logo_s.pdf} \hspace{0.4cm} \fi}
% \frame{\titlepage}
\placelogofalse
%*****************************************************************************
\begin{frame}{\large \large Software Compensation}
\renewcommand{\yRefPosOne}{0}
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\begin{tikzpicture}[overlay]
% \node[inner sep=0pt] (tmp) at (\xRefPosOne,\yRefPosOne+0.5)
% {\includegraphics[width=8cm]{Matthias/ClosurePlotOfHighEnergyRangeNeutrons.pdf}};
\node[inner sep=0pt] (tmp) at (\xRefPosOne+3.5,\yRefPosOne-2.0)
{\includegraphics[width=5cm]{fromPreviousTalks/swComp_weights_example.png}};
\node at (\xRefPosOne-2.7,\yRefPosOne-1.8) (box){%
\begin{minipage}{0.6\textwidth}
Software compensation:
\begin{itemize}
\item Electromagnetic component of shower typically denser
\item Software compensation reweights hits in HCAL depending on the hit energy
density
\item Weights are calculated by formula: $\omega(\rho) = $p$_1 $exp$($p$_2 \rho) + $p$_3$ \\[0.1cm]
where each parameter is an energy dependent\\ $\to$
9 different parameters are used in total
% \item In total 9 different parameters are used
% \item Weight includes an energy dependence
\end{itemize}
\end{minipage}
};
\node at (\xRefPosOne-0.6,\yRefPosOne+1.8) (box){%
\begin{minipage}{1.05\textwidth}
% Nonlinear non compensating natures of hadron calorimeters:
\begin{itemize}
\item Software compensation is an energy ``regularisation'' techniques ({\small \href{http://iopscience.iop.org/1748-0221/7/09/P09017}{\color{blue}JINST 7 (2012) P09017}})
\item Idea is to correct with software for (on average) larger response of hadron
showers with large electromagnetic component $\to$ improves energy
measurement of cluster energies
\item Software compensation technique (developed by CALICE) is implemented in
PandoraPFA now
\end{itemize}
\end{minipage}
};
\node [PixelBox] at (\xRefPosOne-2.3,\yRefPosOne-4.2) (box){%
\begin{minipage}{0.55\textwidth}
Detector specific software compensation weights were obtained for CLICdet and CLD
\end{minipage}
};
% \node [PixelBox] at (\xRefPosOne,\yRefPosOne-4) (box){%
% \begin{minipage}{\textwidth}
% Default weight tuned for ILD experiment at ILC up to 100 GeV, at CLIC expect to
% reach higher hadron energies, at 3 TeV sometimes beyond 500 GeV
% $\to$ retune parameters for CLIC ({\small Follow description of paper EPJC 77 (2017) 698})
% \end{minipage}
% };
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\myVerySmallCenterBox[TRTColor]{EPJC 77 (2017) 698}
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\end{tikzpicture}
\end{frame}
%*****************************************************************************
%*****************************************************************************
\begin{frame}{\large \large Software compensation for CLD, CLICdet and ILD}
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\renewcommand{\xRefPosOne}{4.2}
\renewcommand{\xRefIncrementOne}{7.5}
\begin{tikzpicture}[overlay]
\node[inner sep=0pt] (tmp) at (\xRefPosOne-1.7,\yRefPosOne+2.9)
{\includegraphics[width=4cm]{../newSW_may29/may29_SWC_weights_1_GeV.pdf}};
\node at (\xRefPosOne-1.7,\yRefPosOne+4.5) (box){%
\myCenterBox{\small 1 GeV}
};
\node[inner sep=0pt] (tmp) at (\xRefPosOne+4.5,\yRefPosOne+2.9)
{\includegraphics[width=4cm]{../newSW_may29/may29_SWC_weights_5_GeV.pdf}};
\node at (\xRefPosOne+4.5,\yRefPosOne+4.5) (box){%
\myCenterBox{\small 5 GeV}
};
\node[inner sep=0pt] (tmp) at (\xRefPosOne-2.9,\yRefPosOne-0.9)
{\includegraphics[width=4cm]{../newSW_may29/may29_SWC_weights_10_GeV.pdf}};
\node at (\xRefPosOne-2.9,\yRefPosOne+0.7) (box){%
\myCenterBox{\small 10 GeV}
};
\node[inner sep=0pt] (tmp) at (\xRefPosOne+1.1,\yRefPosOne-0.9)
{\includegraphics[width=4cm]{../newSW_may29/may29_SWC_weights_30_GeV.pdf}};
\node at (\xRefPosOne+1.1,\yRefPosOne+0.7) (box){%
\myCenterBox{\small 30 GeV}
};
\node[inner sep=0pt] (tmp) at (\xRefPosOne+4.9,\yRefPosOne-0.9)
{\includegraphics[width=4cm]{../newSW_may29/may29_SWC_weights_90_GeV.pdf}};
\node at (\xRefPosOne+4.9,\yRefPosOne+0.7) (box){%
\myCenterBox{\small 90 GeV}
};
\end{tikzpicture}
\end{frame}
%*****************************************************************************
%*****************************************************************************
\begin{frame}{\large \large Jet energy resolution with dijet events}
\renewcommand{\yRefPosOne}{-1.5}
\renewcommand{\xRefPosOne}{5.3}
\renewcommand{\xRefIncrementOne}{5.5}
\begin{tikzpicture}[overlay]
\node at (\xRefPosOne+0.4,\yRefPosOne+4.5) (box){%
\begin{minipage}{1.1\textwidth}
\begin{itemize}
\item Dijet events of a Z-like particle decaying into pair of light quarks (u, d, s) at several centre-of-mass energies
\end{itemize}
\end{minipage}
};
\node[inner sep=0pt] (tmp) at (\xRefPosOne-2.7,\yRefPosOne+1.2)
{\includegraphics[width=6cm]{JER_FCCee_vs_CLIC_conformal_Zuds91_matthiasCLIC.pdf}};
\node[inner sep=0pt] (tmp) at (\xRefPosOne+3.3,\yRefPosOne+1.2)
{\includegraphics[width=6cm]{JER_FCCee_vs_CLIC_conformal_Zuds380_matthiasCLIC.pdf}};
\node[inner sep=0pt] (tmp) at (\xRefPosOne-3.6,\yRefPosOne+3.5)
{\tiny WORK IN PROGRESS};
\node[inner sep=0pt] (tmp) at (\xRefPosOne+2.4,\yRefPosOne+3.5)
{\tiny WORK IN PROGRESS};
\node at (\xRefPosOne-1.13,\yRefPosOne+3.55) (box){%
\myCenterBox{\small 45.5 GeV jets}
};
\node at (\xRefPosOne+4.9,\yRefPosOne+3.55) (box){%
\myCenterBox{\small 190 GeV jets}
};
\node at (\xRefPosOne,\yRefPosOne-2.3) (box){%
\begin{minipage}{\textwidth}
\begin{itemize}
\item Comparable resolution for both detectors
\item Jet energy resolution in barrel region:
\begin{itemize}
\item 45.5 GeV jets: 4-5 $\%$
\item 190 GeV jets: 3-4 $\%$ \\ [0.2cm]
\end{itemize}
\end{itemize}
\end{minipage}
};
\node [PixelBox, inner sep=4pt] at (\xRefPosOne+3.55,\yRefPosOne-2.4) (box){%
\begin{minipage}{0.45\textwidth}
\small
Jet energy (E$_j$) is measured as a half of total energy (E$_{jj}$) of Z$\to q\bar{q}$ (q=u,d,s) di-jet event\\
\hspace{0.4cm}
{\includegraphics[width=4cm]{../plots_FCCweek_workshop/other/jetRes_formula.png}}
\end{minipage}
};
% % HELPER draw advanced helping grid with axises:
% \draw(-0.5,-4) to[grid with coordinates] (11.5,4);
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\end{frame}
%*****************************************************************************
\end{document}