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%	latex Frejus
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%\documentstyle[12pt,epsfig,amstex,amssymb,here]{article}
\documentclass[12pt]{article}
\usepackage{epsfig,amsmath,amssymb,here,rotating}
\usepackage[T1]{fontenc}
\usepackage{eurosym}
%\usepackage{eurosans}
\newcommand{\modif}[3]{{(\sc{#1})}{\sout{\small #2}}{\bf #3}}

%

\def\dm{\ensuremath{\Delta m}}
\def\dm2{\ensuremath{\Delta m^{2}\ }}
\def\sen2th{\ensuremath{ \sin^{2}(2\theta)\ }}
\def\(({\left(}
\def\)){\right)}

\def\nubar{$\overline{\nu}\ $}
\def\nue{\ensuremath{\nu_{e}\ }}
\def\nubare{\ensuremath{\overline{\nu}_{e}\ }}
\def\nubarecc{$\overline{\nu}_{e}^{CC}\ $}
\def\numu{\ensuremath{\nu_{\mu}\ }}
\def\nubarmu{\ensuremath{\overline{\nu}_{\mu}\ }}
\def\nubarmucc{$\overline{\nu}_{\mu}^{CC}\ $}
\def\nutau{\ensuremath{\nu_{\tau}\ }}
\def\nubartau{\ensuremath{\overline{\nu_{\tau}}\ }}
\def\nulep{$\nu^{l}\ $}
\def\nubarlep{$\overline{\nu^{l}}\ $}

\def\nuef{\ensuremath{\nu_{e}}}
\def\nubarf{\ensuremath{\overline{\nu}}}
\def\nubaref{\ensuremath{\overline{\nu}_{e}}}
\def\numuf{\ensuremath{\nu_{\mu}}}
\def\nubarmuf{\ensuremath{\overline{\nu_{\mu}}}}
\def\nutauf{\ensuremath{\nu_{\tau}}}
\def\nubartauf{\ensuremath{\overline{\nu_{\tau}}}}
\def\nulepf{\ensuremath{\nu^{l}}}
\def\nubarlepf{\ensuremath{\overline{\nu^{l}}}}
\def\pzero{\ensuremath{\ensuremath{\pi^0\ }}}

%\newcommand{\pion}{\ensuremath{\pi}}
%\newcommand{\pinot}{\ensuremath{\pi^0}}
%\newcommand{\phad}{\ensuremath{\vec{p}_{had}}}
\newcommand{\mphad}{\ensuremath{p_{had}}}
\newcommand{\plep}{\ensuremath{\vec{p}_{lep}}}
\newcommand{\pele}{\ensuremath{\vec{p}_{ele}}}
\newcommand{\mpele}{\ensuremath{p_{lep}}}
\newcommand{\evis}{\ensuremath{E_{vis}\,}}
\newcommand{\pte}{\ensuremath{p^T_e}}
\newcommand{\ptlep}{\ensuremath{p^T_{lepton}}}
\newcommand{\nuecc}{\ensuremath{\nu_e^{CC}\,}}
\newcommand{\numucc}{\ensuremath{\nu_\mu^{CC}\,}}
\newcommand{\numunc}{\ensuremath{\nu_\mu^{NC}}}
\newcommand{\antinuecc}{\ensuremath{\overline{\nu_e}^{CC}\,}}
\newcommand{\antinumucc}{\ensuremath{\overline{\nu_\mu}^{CC}}}

\newcommand{\chisq}{\ensuremath{\chi^{2}\ }}

\newcommand{\raw}{\rightarrow}
\newcommand{\nn}{\nonumber}
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\newcommand{\ev}{ {\rm eV} }
\newcommand{\gev}{ {\rm GeV} }
\newcommand{\Gev}{ {\rm GeV} }
\newcommand{\tev}{ {\rm TeV} }
\newcommand{\mev}{ {\rm MeV} }
\newcommand{\Mev}{ {\rm MeV} }
\newcommand{\mw}{ {\rm MW} }
\newcommand{\km}{ {\rm km} }
\newcommand{\tesla}{ {\rm Tesla} }
\newcommand{\meter}{ {\rm m} }
\newcommand{\kton}{ {\rm Kton} }
\newcommand{\ton}{ {\rm ton} }
\newcommand{\mton}{ {\rm Mton} }
\newcommand{\mm}{ {\rm mm} }
\newcommand{\cm}{ {\rm cm} }
\newcommand{\mim}{ {\mu \rm m} }
%\newcommand{\bea}{\begin{eqnarray}}
%\newcommand{\eea}{\end{eqnarray}}
\newcommand{\be}{\begin{equation}}
\newcommand{\ee}{\end{equation}}
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\newcommand{\flux}{\mbox{$ cm^{-2}~s^{-1}$}}
\newcommand{\dens}{\mbox{$ cm^{-3}$}}
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\newcommand{\tetaot}{\mbox{$\theta_{13}$}}
\newcommand{\tetatt}{\mbox{$\theta_{23}$}}
\newcommand{\tatm}{\mbox{$\theta_{23}$}}
\newcommand{\tsun}{\mbox{$\theta_{12}$}}
\newcommand{\deltt}{\mbox{$\Delta_{23}$}}
\newcommand{\delot}{\mbox{$\Delta_{13}$}}
\newcommand{\dsun}{\mbox{$\Delta_{sun}^2$}}
\newcommand{\datm}{\mbox{$\Delta_{atm}^2$}}

%
\newcommand{\Losc}{\mbox{$L_{osc}$}}
\newcommand{\mmm}{\mbox{$m_{1}^{2}-m_{2}^{2}$}}
\newcommand{\stt}{\mbox{$sin^{2}~2\theta $}}
\newcommand{\dms}{\mbox{$\Delta m^{2}$}}
\newcommand{\numubar}{\mbox{$\overline{\nu}_{\mu}$}}
\newcommand{\nuebar}{\mbox{$\overline{\nu}_{e}$}}
\newcommand{\muminus}{\mbox{$\mu^{-}$}}
\newcommand{\muplus}{\mbox{$\mu^{+}$}}

\newcommand{\neb}{\mbox{$\overline{\nu}_{e}$}}
\newcommand{\num}{\mbox{${\nu}_{\mu}$}}
\newcommand{\nmb}{\mbox{$\overline{\nu}_{\mu}$}}
\newcommand{\nut}{\mbox{${\nu}_{\tau}$}}
\newcommand{\ntb}{\mbox{$\overline{\nu}_{\tau}$}}
\newcommand{\nub}{\mbox{$\overline{\nu}$}}
\newcommand{\lsim}{\mbox{\raisebox{-1.ex}
{$\stackrel{\textstyle <}{\textstyle \sim}$}}}
\newcommand{\gsim}{\mbox{\raisebox{-1.ex}
{$\stackrel{\textstyle >}{\textstyle \sim}$}}}
\newcommand{\sstt}      {\sin^2 2\theta}
%\newcommand{\dms}       {\Delta m^2}
\newcommand{\degree}    {^{\circ}}

\newcommand{\ttbs}{\char'134}
%\newcommand{\AmS}{{\protect\the\textfont2 A\kern-.1667em\lower.5ex\hbox{M}\kern-.125emS}}

\newcommand{\pnuenumu}{\ensuremath{P(\nue \rightarrow \numu)\,}}
%\newcommand{\pnumunumu}{\ensuremath{p(\numu \rightarrow \numu)\,}}
\newcommand{\nuenumu}{\ensuremath{\nue \rightarrow \numu\,}}
\newcommand{\numunutau}{\ensuremath{\numu \rightarrow \nutau\,}}
\newcommand{\nuenutau}{\ensuremath{\nue \rightarrow \nutau}}
\newcommand{\nubarenubarmu}{\ensuremath{\overline{\nu}_e \rightarrow \overline{\nu}_\mu\,}}
\newcommand{\nubarmunubare}{\ensuremath{\overline{\nu}_\mu \rightarrow \overline{\nu}_e\,}}
\newcommand{\dmot}{\ensuremath{\Delta m^2_{12}\,}}
\newcommand{\dmtt}{\ensuremath{\Delta m^2_{23} \,}}

\newcommand{\He}{\ensuremath{^6{\mathrm{He}\,}}}
\newcommand{\Ne}{\ensuremath{^{18}{\mathrm{Ne}\,}}}
\def\Li{^6{\mathrm{Li}}}
\def\anue{\overline{{\mathrm\nu}}_{\mathrm e}}
\def\anumu{\overline{{\mathrm\nu}}_{\mathrm \mu}}
\newcommand{\thetaot}{\ensuremath{\theta_{13}}\,}
\newcommand{\thetatt}{\ensuremath{\theta_{23}}\,}
\newcommand{\numunue}{\ensuremath{\nu_\mu \rightarrow \nu_e}}
\newcommand{\pnuenue}{\ensuremath{P(\nue \rightarrow \nue)}}
\newcommand{\pnumunue}{\ensuremath{P(\nu_\mu \rightarrow \nu_e)}}
\newcommand{\pnumunumu}{\ensuremath{P(\nu_\mu \rightarrow \nu_\mu)}}
\newcommand{\pnubarenubarmu}{\ensuremath{P(\overline{\nu}_e \rightarrow \overline{\nu}_\mu\)\,}}
\newcommand{\pnubarmunubare}{\ensuremath{P(\overline{\nu}_\mu \rightarrow \overline{\nu}_e)\,}}
\newcommand{\dmsun}{\ensuremath{\Delta m^2_{sun}\ }}
\newcommand{\dmatm}{\ensuremath{\Delta m^2_{atm}}}
\newcommand{\nueovernumu}{\ensuremath{\nue/\numu}}
\newcommand{\sigdm}{\ensuremath{{\rm sign}(\Delta m^2_{23})\ }}
%\newcommand{\delCP}{\ensuremath{\delta_{\rm CP}}}
\newcommand{\delCP}{\ensuremath{\delta_{\rm CP}\ }}

\newcommand{\stheta}{\sin^22\theta_{13}}
\newcommand{\deltacp}{\delta_\mathrm{CP}}

\def\He{\ensuremath{^6{\mathrm{He}}}}
\def\Li{\ensuremath{^6{\mathrm{Li}}}}
\def\Ne{\ensuremath{^{18}{\mathrm{Ne}}}}
\def\anue{\ensuremath{\overline{{\mathrm\nu}}_{\mathrm e}}}
\def\anumu{\ensuremath{\overline{{\mathrm\nu}}_{\mathrm \mu}}}
\def\numunue{\ensuremath{\mbox{$\nu_\mu \rightarrow \nu  e$}}}

%
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\newcommand{\REDBLA}[1]{\red {#1} \black}
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\def\mc2{\multicolumn{2}{c|}}
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

\input{style.tex}

\begin{document}

\bibliographystyle{JHEP}

%\vspace*{2cm}

\begin{center}
{\bf \Large MEMPHYS\,:}

\vspace{0.2cm} 

{\bf \Large A large scale water \v{C}erenkov detector at Fr\'ejus}

%\vspace{0.5cm}
%{\bf Preliminary }

%\vspace{1.5cm}
%{\bf Contribution to the CERN strategic committee} \\
%Orsay, 30/01/2006
\end{center}

\input{detector.tex}

\newpage
\bibliography{MEMPHYS}
\end{document}