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branches/2017/dev_merge_2017/DOC/TexFiles/Chapters/Chap_LDF.tex
r6997 r9363 37 37 % ================================================================ 38 38 \section [Direction of Lateral Mixing (\textit{ldfslp})] 39 {Direction of Lateral Mixing (\ mdl{ldfslp})}39 {Direction of Lateral Mixing (\protect\mdl{ldfslp})} 40 40 \label{LDF_slp} 41 41 … … 231 231 \begin{figure}[!ht] \begin{center} 232 232 \includegraphics[width=0.70\textwidth]{Fig_LDF_ZDF1} 233 \caption { \ label{Fig_LDF_ZDF1}233 \caption { \protect\label{Fig_LDF_ZDF1} 234 234 averaging procedure for isopycnal slope computation.} 235 235 \end{center} \end{figure} … … 259 259 \begin{figure}[!ht] \begin{center} 260 260 \includegraphics[width=0.70\textwidth]{Fig_eiv_slp} 261 \caption { \ label{Fig_eiv_slp}261 \caption { \protect\label{Fig_eiv_slp} 262 262 Vertical profile of the slope used for lateral mixing in the mixed layer : 263 263 \textit{(a)} in the real ocean the slope is the iso-neutral slope in the ocean interior, … … 307 307 % ================================================================ 308 308 \section [Lateral Mixing Operators (\textit{ldftra}, \textit{ldfdyn})] 309 {Lateral Mixing Operators (\ mdl{traldf},\mdl{traldf}) }309 {Lateral Mixing Operators (\protect\mdl{traldf}, \protect\mdl{traldf}) } 310 310 \label{LDF_op} 311 311 … … 316 316 % ================================================================ 317 317 \section [Lateral Mixing Coefficient (\textit{ldftra}, \textit{ldfdyn})] 318 {Lateral Mixing Coefficient (\ mdl{ldftra},\mdl{ldfdyn}) }318 {Lateral Mixing Coefficient (\protect\mdl{ldftra}, \protect\mdl{ldfdyn}) } 319 319 \label{LDF_coef} 320 320 … … 350 350 parameters. 351 351 352 \subsubsection{Vertically varying Mixing Coefficients (\ key{traldf\_c1d} and \key{dynldf\_c1d})}352 \subsubsection{Vertically varying Mixing Coefficients (\protect\key{traldf\_c1d} and \key{dynldf\_c1d})} 353 353 The 1D option is only available when using the $z$-coordinate with full step. 354 354 Indeed in all the other types of vertical coordinate, the depth is a 3D function … … 361 361 This profile is hard coded in file \hf{traldf\_c1d}, but can be easily modified by users. 362 362 363 \subsubsection{Horizontally Varying Mixing Coefficients (\ key{traldf\_c2d} and\key{dynldf\_c2d})}363 \subsubsection{Horizontally Varying Mixing Coefficients (\protect\key{traldf\_c2d} and \protect\key{dynldf\_c2d})} 364 364 By default the horizontal variation of the eddy coefficient depends on the local mesh 365 365 size and the type of operator used: … … 391 391 sub-domain options of ORCA2 and ORCA05 (see \&namcfg namelist). 392 392 393 \subsubsection{Space Varying Mixing Coefficients (\ key{traldf\_c3d} and \key{dynldf\_c3d})}393 \subsubsection{Space Varying Mixing Coefficients (\protect\key{traldf\_c3d} and \key{dynldf\_c3d})} 394 394 395 395 The 3D space variation of the mixing coefficient is simply the combination of the … … 447 447 % ================================================================ 448 448 \section [Eddy Induced Velocity (\textit{traadv\_eiv}, \textit{ldfeiv})] 449 {Eddy Induced Velocity (\ mdl{traadv\_eiv},\mdl{ldfeiv})}449 {Eddy Induced Velocity (\protect\mdl{traadv\_eiv}, \protect\mdl{ldfeiv})} 450 450 \label{LDF_eiv} 451 451
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