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\title{Towards Moving Picture Simulations in a Discontinuous Galerkin Framework}
\author{Yingjie Wang}
\institute{FAU}

\begin{document}
	\maketitle

  \begin{frame}{Contents}
		\tableofcontents
	\end{frame}

  \begin{frame}{Outline of the Project}
    \section{Introduction}
    \begin{enumerate}
      \item A first order evolution system, to be named FOZ4c
      \item An implementation in our discontinuous Galerkin code \texttt{nmesh}
      \item Simulations of binary black holes with large mass ratio with the moving puncture gauge
    \end{enumerate}
  \end{frame}

  \begin{frame}{Final Goal: binary black holes with large mass ratio}
    \subsection{binary black holes with large mass ratio}

    Why binary black holes?

    \begin{itemize}
      \item Main sources of gravitational waves
      \item Simplest two-body problem in general relativity
      \item Connecting strong field GR with post-Newtonian approximations
    \end{itemize}

    Why large mass ratio?
    \begin{itemize}
      \item LISA is able to detect extreme mass ratio inspirals (EMRIs)
      \item Compare with perturbation theory
    \end{itemize}
  \end{frame}

  \begin{frame}{Discontinuous Galerkin method and \texttt{nmesh}}
    \subsection{Discontinuous Galerkin method and \texttt{nmesh}}
  \end{frame}

\end{document}