--- manual/s_examples/baroclinic_gyre/fourlayer.tex 2003/09/15 19:39:04 1.16 +++ manual/s_examples/baroclinic_gyre/fourlayer.tex 2006/06/27 19:08:22 1.21 @@ -1,9 +1,12 @@ -% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/baroclinic_gyre/fourlayer.tex,v 1.16 2003/09/15 19:39:04 edhill Exp $ +% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/baroclinic_gyre/fourlayer.tex,v 1.21 2006/06/27 19:08:22 molod Exp $ % $Name: $ -\section{Four Layer Baroclinic Ocean Gyre In Spherical Coordinates} +\section[Baroclinic Gyre MITgcm Example]{Four Layer Baroclinic Ocean Gyre In Spherical Coordinates} \label{www:tutorials} \label{sect:eg-fourlayer} +\begin{rawhtml} + +\end{rawhtml} \bodytext{bgcolor="#FFFFFFFF"} @@ -18,13 +21,9 @@ %\end{center} This document describes an example experiment using MITgcm -to simulate a baroclinic ocean gyre in spherical -polar coordinates. The barotropic -example experiment in section \ref{sect:eg-baro} -illustrated how to configure the code for a single layer -simulation in a Cartesian grid. In this example a similar physical problem -is simulated, but the code is now configured -for four layers and in a spherical polar coordinate system. +to simulate a baroclinic ocean gyre for four layers in spherical +polar coordinates. The files for this experiment can be found +in the verification directory under tutorial\_baroclinic\_gyre. \subsection{Overview} \label{www:tutorials} @@ -104,11 +103,15 @@ the quantity that is carried in the model core equations. \begin{figure} -\begin{center} - \resizebox{7.5in}{5.5in}{ - \includegraphics*[0.2in,0.7in][10.5in,10.5in] - {part3/case_studies/fourlayer_gyre/simulation_config.eps} } -\end{center} +%% \begin{center} +%% \resizebox{7.5in}{5.5in}{ +%% \includegraphics*[0.2in,0.7in][10.5in,10.5in] +%% {part3/case_studies/fourlayer_gyre/simulation_config.eps} } +%% \end{center} +\centerline{ + \scalefig{.95} + \epsfbox{part3/case_studies/fourlayer_gyre/simulation_config.eps} +} \caption{Schematic of simulation domain and wind-stress forcing function for the four-layer gyre numerical experiment. The domain is enclosed by solid walls at $0^{\circ}$~E, $60^{\circ}$~E, $0^{\circ}$~N and $60^{\circ}$~N. @@ -376,7 +379,7 @@ \item Line 4, \begin{verbatim} tRef=20.,10.,8.,6., \end{verbatim} this line sets the initial and reference values of potential -temperature at each model level in units of $^{\circ}$C. The entries +temperature at each model level in units of $^{\circ}\mathrm{C}$. The entries are ordered from surface to depth. For each depth level the initial and reference profiles will be uniform in $x$ and $y$. The values specified here are read into the variable \varlink{tRef}{tRef} in the