% % FICHIER STYLE % \input{these_spiga.sty} \usepackage{pstricks} \usepackage{pifont} \usepackage{paralist} % % % END FICHIER STYLE % \begin{document} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \frontmatter %\pagestyle{fancy} \selectlanguage{english} %\maketitle \begin{titlepage} \mbox{}\\ \Ovalbox{ \begin{minipage}{1\textwidth} \begin{center} \Huge{LMD Martian Mesoscale Model}\\\huge{User Manual} \end{center} \end{minipage} } \mbox{}\\ \begin{center} \includegraphics[width=0.85\textwidth]{domain_100.png} \end{center} \mbox{}\\ \begin{center} \huge{A. Spiga}\\ \email{aymeric.spiga}{upmc.fr}\\ Laboratoire de M\'et\'eorologie Dynamique\\ %Institut Pierre Simon Laplace\\ Universit\'e Pierre et Marie Curie, Paris, France\\ \end{center} \end{titlepage} \clearemptydoublepage %%%%%%%%%%%%%%%%%%%%%% % TABLE DES MATIERES % %%%%%%%%%%%%%%%%%%%%%% \dominitoc %\ajusterletitrecourant{Sommaire} %\pagestyle{empty} \tableofcontents \clearemptydoublepage %\pagestyle{fancy} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \mainmatter %\clearemptydoublepage %\include{intro} % %\clearemptydoublepage %\include{ch1} % \clearemptydoublepage \ajusterletitrecourant{User Manual for the LMD Martian Mesoscale Model} %\chapter*{ %Realistic modeling of the %Martian mesoscale and %microscale circulation : %validation and first results. %} %\newpage %\newpage %\mbox{} %\newpage \include{foreword} \include{whatis} \include{installation} \include{compile_exec} \include{parameters} \include{preproc} %\include{user_manual_txt} %\end{document} \backmatter \appendix \chapter{Martian calendars}\label{calendar} \sk \small \codesource{calendar} \normalsize \footnotesize{ \bibliographystyle{these} %\bibliographystyle{plain} %\bibliographystyle{natbib} %\bibliographystyle{abbrvnat} \bibliography{newfred} } \end{document}