Changeset 11558 for NEMO/trunk/doc/latex/NEMO/subfiles/chap_cfgs.tex
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- 2019-09-17T17:04:06+02:00 (5 years ago)
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NEMO/trunk/doc/latex/NEMO/subfiles/chap_cfgs.tex
r11543 r11558 28 28 %------------------------------------------namcfg---------------------------------------------------- 29 29 30 \nlst{namcfg} 30 \begin{listing} 31 \nlst{namcfg} 32 \caption{\texttt{namcfg}} 33 \label{lst:namcfg} 34 \end{listing} 31 35 %------------------------------------------------------------------------------------------------------------- 32 36 … … 89 93 %>>>>>>>>>>>>>>>>>>>>>>>>>>>> 90 94 \begin{figure}[!t] 91 \begin{center} 92 \includegraphics[width=\textwidth]{Fig_ORCA_NH_mesh} 93 \caption{ 94 \protect\label{fig:CFGS_ORCA_msh} 95 ORCA mesh conception. 96 The departure from an isotropic Mercator grid start poleward of 20\deg{N}. 97 The two "north pole" are the foci of a series of embedded ellipses (blue curves) which 98 are determined analytically and form the i-lines of the ORCA mesh (pseudo latitudes). 99 Then, following \citet{madec.imbard_CD96}, the normal to the series of ellipses (red curves) is computed which 100 provides the j-lines of the mesh (pseudo longitudes). 101 } 102 \end{center} 95 \centering 96 \includegraphics[width=\textwidth]{Fig_ORCA_NH_mesh} 97 \caption[ORCA mesh conception]{ 98 ORCA mesh conception. 99 The departure from an isotropic Mercator grid start poleward of 20\deg{N}. 100 The two "north pole" are the foci of a series of embedded ellipses (blue curves) which 101 are determined analytically and form the i-lines of the ORCA mesh (pseudo latitudes). 102 Then, following \citet{madec.imbard_CD96}, 103 the normal to the series of ellipses (red curves) is computed which 104 provides the j-lines of the mesh (pseudo longitudes).} 105 \label{fig:CFGS_ORCA_msh} 103 106 \end{figure} 104 107 %>>>>>>>>>>>>>>>>>>>>>>>>>>>> … … 121 124 %>>>>>>>>>>>>>>>>>>>>>>>>>>>> 122 125 \begin{figure}[!tbp] 123 \begin{center} 124 \includegraphics[width=\textwidth]{Fig_ORCA_NH_msh05_e1_e2} 125 \includegraphics[width=\textwidth]{Fig_ORCA_aniso} 126 \caption { 127 \protect\label{fig:CFGS_ORCA_e1e2} 128 \textit{Top}: Horizontal scale factors ($e_1$, $e_2$) and 129 \textit{Bottom}: ratio of anisotropy ($e_1 / e_2$) 130 for ORCA 0.5\deg ~mesh. 131 South of 20\deg{N} a Mercator grid is used ($e_1 = e_2$) so that the anisotropy ratio is 1. 132 Poleward of 20\deg{N}, the two "north pole" introduce a weak anisotropy over the ocean areas ($< 1.2$) except in 133 vicinity of Victoria Island (Canadian Arctic Archipelago). 134 } 135 \end{center} 126 \centering 127 \includegraphics[width=\textwidth]{Fig_ORCA_NH_msh05_e1_e2} 128 \includegraphics[width=\textwidth]{Fig_ORCA_aniso} 129 \caption[Horizontal scale factors and ratio of anisotropy for ORCA 0.5\deg\ mesh]{ 130 \textit{Top}: Horizontal scale factors ($e_1$, $e_2$) and 131 \textit{Bottom}: ratio of anisotropy ($e_1 / e_2$) 132 for ORCA 0.5\deg\ mesh. 133 South of 20\deg{N} a Mercator grid is used ($e_1 = e_2$) so that the anisotropy ratio is 1. 134 Poleward of 20\deg{N}, 135 the two "north pole" introduce a weak anisotropy over the ocean areas ($< 1.2$) except in 136 vicinity of Victoria Island (Canadian Arctic Archipelago).} 137 \label{fig:CFGS_ORCA_e1e2} 136 138 \end{figure} 137 139 %>>>>>>>>>>>>>>>>>>>>>>>>>>>> … … 163 165 %--------------------------------------------------TABLE-------------------------------------------------- 164 166 \begin{table}[!t] 165 \begin{center} 166 \begin{tabular}{p{4cm} c c c c} 167 Horizontal Grid & \jp{ORCA\_index} & \jp{jpiglo} & \jp{jpjglo} \\ 168 \hline \hline 169 % 4 \deg & 4 & 92 & 76 \\ 170 2 \deg & 2 & 182 & 149 \\ 171 1 \deg & 1 & 362 & 292 \\ 172 0.5 \deg & 05 & 722 & 511 \\ 173 0.25\deg & 025 & 1442 & 1021 \\ 174 \hline \hline 175 \end{tabular} 176 \caption{ 177 \protect\label{tab:CFGS_ORCA} 178 Domain size of ORCA family configurations. 179 The flag for configurations of ORCA family need to be set in \textit{domain\_cfg} file. 180 } 181 \end{center} 167 \centering 168 \begin{tabular}{p{4cm} c c c c} 169 Horizontal Grid & \jp{ORCA\_index} & \jp{jpiglo} & \jp{jpjglo} \\ 170 \hline \hline 171 % 4 \deg\ & 4 & 92 & 76 \\ 172 2 \deg\ & 2 & 182 & 149 \\ 173 1 \deg\ & 1 & 362 & 292 \\ 174 0.5 \deg\ & 05 & 722 & 511 \\ 175 0.25\deg\ & 025 & 1442 & 1021 \\ 176 \hline \hline 177 \end{tabular} 178 \caption[Domain size of ORCA family configurations]{ 179 Domain size of ORCA family configurations. 180 The flag for configurations of ORCA family need to be set in \textit{domain\_cfg} file.} 181 \label{tab:CFGS_ORCA} 182 182 \end{table} 183 183 %-------------------------------------------------------------------------------------------------------------- … … 277 277 %>>>>>>>>>>>>>>>>>>>>>>>>>>>> 278 278 \begin{figure}[!t] 279 \begin{center} 280 \includegraphics[width=\textwidth]{Fig_GYRE} 281 \caption{ 282 \protect\label{fig:CFGS_GYRE} 283 Snapshot of relative vorticity at the surface of the model domain in GYRE R9, R27 and R54. 284 From \citet{levy.klein.ea_OM10}. 285 } 286 \end{center} 279 \centering 280 \includegraphics[width=\textwidth]{Fig_GYRE} 281 \caption[Snapshot of relative vorticity at the surface of the model domain in GYRE R9, R27 and R54]{ 282 Snapshot of relative vorticity at the surface of the model domain in GYRE R9, R27 and R54. 283 From \citet{levy.klein.ea_OM10}.} 284 \label{fig:CFGS_GYRE} 287 285 \end{figure} 288 286 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
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