Changeset 11561


Ignore:
Timestamp:
2019-09-18T15:24:34+02:00 (21 months ago)
Author:
nicolasmartin
Message:

Apply two thirds ratio on figures width as default

Location:
NEMO/trunk/doc/latex/NEMO/subfiles
Files:
17 edited

Legend:

Unmodified
Added
Removed
  • NEMO/trunk/doc/latex/NEMO/subfiles/apdx_DOMAINcfg.tex

    r11558 r11561  
    114114\begin{figure}[!tb] 
    115115  \centering 
    116   \includegraphics[width=\textwidth]{Fig_zgr} 
     116  \includegraphics[width=0.66\textwidth]{Fig_zgr} 
    117117  \caption[DOMAINcfg: default vertical mesh for ORCA2]{ 
    118118    Default vertical mesh for ORCA2: 30 ocean levels (L30). 
     
    471471\begin{figure}[!ht] 
    472472  \centering 
    473   \includegraphics[width=\textwidth]{Fig_sco_function} 
     473  \includegraphics[width=0.66\textwidth]{Fig_sco_function} 
    474474  \caption[DOMAINcfg: examples of the stretching function applied to a seamount]{ 
    475475    Examples of the stretching function applied to a seamount; 
     
    522522\begin{figure}[!ht] 
    523523  \centering 
    524   \includegraphics[width=\textwidth]{Fig_DOM_compare_coordinates_surface} 
     524  \includegraphics[width=0.66\textwidth]{Fig_DOM_compare_coordinates_surface} 
    525525  \caption[DOMAINcfg: comparison of $s$- and $z$-coordinate]{ 
    526526    A comparison of the \citet{song.haidvogel_JCP94} $S$-coordinate (solid lines), 
  • NEMO/trunk/doc/latex/NEMO/subfiles/apdx_algos.tex

    r11558 r11561  
    308308\begin{figure}[!ht] 
    309309  \centering 
    310   \includegraphics[width=\textwidth]{Fig_ISO_triad} 
     310  \includegraphics[width=0.66\textwidth]{Fig_ISO_triad} 
    311311  \caption[Triads used in the Griffies's like iso-neutral diffision scheme for 
    312312    $u$- and $w$-components)]{ 
  • NEMO/trunk/doc/latex/NEMO/subfiles/apdx_triads.tex

    r11558 r11561  
    202202\begin{figure}[tb] 
    203203  \centering 
    204   \includegraphics[width=\textwidth]{Fig_GRIFF_triad_fluxes} 
     204  \includegraphics[width=0.66\textwidth]{Fig_GRIFF_triad_fluxes} 
    205205  \caption[Triads arrangement and tracer gradients to give lateral and vertical tracer fluxes]{ 
    206206    (a) Arrangement of triads $S_i$ and tracer gradients to 
     
    264264\begin{figure}[tb] 
    265265  \centering 
    266   \includegraphics[width=\textwidth]{Fig_GRIFF_qcells} 
     266  \includegraphics[width=0.66\textwidth]{Fig_GRIFF_qcells} 
    267267  \caption[Triad notation for quarter cells]{ 
    268268    Triad notation for quarter cells. 
     
    656656\begin{figure}[h] 
    657657  \centering 
    658   \includegraphics[width=\textwidth]{Fig_GRIFF_bdry_triads} 
     658  \includegraphics[width=0.66\textwidth]{Fig_GRIFF_bdry_triads} 
    659659  \caption[Boundary triads]{ 
    660660    (a) Uppermost model layer $k=1$ with $i,1$ and $i+1,1$ tracer points (black dots), 
     
    809809\begin{figure}[h] 
    810810  \centering 
    811   \includegraphics[width=\textwidth]{Fig_GRIFF_MLB_triads} 
     811  \includegraphics[width=0.66\textwidth]{Fig_GRIFF_MLB_triads} 
    812812  \caption[Definition of mixed-layer depth and calculation of linearly tapered triads]{ 
    813813    Definition of mixed-layer depth and calculation of linearly tapered triads. 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_DIA.tex

    r11558 r11561  
    20122012\begin{figure}[!t] 
    20132013  \centering 
    2014   \includegraphics[width=\textwidth]{Fig_mask_subasins} 
     2014  \includegraphics[width=0.66\textwidth]{Fig_mask_subasins} 
    20152015  \caption[Decomposition of the World Ocean to compute transports as well as 
    20162016  the meridional stream-function]{ 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_DOM.tex

    r11558 r11561  
    5858\begin{figure}[!tb] 
    5959  \centering 
    60   \includegraphics[width=\textwidth]{Fig_cell} 
     60  \includegraphics[width=0.66\textwidth]{Fig_cell} 
    6161  \caption[Arrangement of variables in the unit cell of space domain]{ 
    6262    Arrangement of variables in the unit cell of space domain. 
     
    148148\begin{figure}[!t] 
    149149  \centering 
    150   \includegraphics[width=\textwidth]{Fig_zgr_e3} 
     150  \includegraphics[width=0.66\textwidth]{Fig_zgr_e3} 
    151151  \caption[Comparison of grid-point position, vertical grid-size and scale factors]{ 
    152152    Comparison of (a) traditional definitions of grid-point position and grid-size in the vertical, 
     
    264264\begin{figure}[!tb] 
    265265  \centering 
    266   \includegraphics[width=\textwidth]{Fig_index_hor} 
     266  \includegraphics[width=0.66\textwidth]{Fig_index_hor} 
    267267  \caption[Horizontal integer indexing]{ 
    268268    Horizontal integer indexing used in the \fortran\ code. 
     
    318318\begin{figure}[!pt] 
    319319  \centering 
    320   \includegraphics[width=\textwidth]{Fig_index_vert} 
     320  \includegraphics[width=0.66\textwidth]{Fig_index_vert} 
    321321  \caption[Vertical integer indexing]{ 
    322322    Vertical integer indexing used in the \fortran\ code. 
     
    480480\begin{figure}[!tb] 
    481481  \centering 
    482   \includegraphics[width=\textwidth]{Fig_z_zps_s_sps} 
     482  \includegraphics[width=0.66\textwidth]{Fig_z_zps_s_sps} 
    483483  \caption[Ocean bottom regarding coordinate systems ($z$, $s$ and hybrid $s-z$)]{ 
    484484    The ocean bottom as seen by the model: 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_DYN.tex

    r11558 r11561  
    317317\begin{figure}[!ht] 
    318318  \centering 
    319   \includegraphics[width=\textwidth]{Fig_DYN_een_triad} 
     319  \includegraphics[width=0.66\textwidth]{Fig_DYN_een_triad} 
    320320  \caption[Triads used in the energy and enstrophy conserving scheme (EEN)]{ 
    321321    Triads used in the energy and enstrophy conserving scheme (EEN) for 
     
    898898\begin{figure}[!t] 
    899899  \centering 
    900   \includegraphics[width=\textwidth]{Fig_DYN_dynspg_ts} 
     900  \includegraphics[width=0.66\textwidth]{Fig_DYN_dynspg_ts} 
    901901  \caption[Split-explicit time stepping scheme for the external and internal modes]{ 
    902902    Schematic of the split-explicit time stepping scheme for the external and internal modes. 
     
    15671567\begin{figure}[!ht] 
    15681568  \centering 
    1569   \includegraphics[width=\textwidth]{Fig_WAD_dynhpg} 
     1569  \includegraphics[width=0.66\textwidth]{Fig_WAD_dynhpg} 
    15701570  \caption[Combinations controlling the limiting of the horizontal pressure gradient in 
    15711571  wetting and drying regimes]{ 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_LBC.tex

    r11558 r11561  
    7272\begin{figure}[!t] 
    7373  \centering 
    74   \includegraphics[width=\textwidth]{Fig_LBC_uv} 
     74  \includegraphics[width=0.66\textwidth]{Fig_LBC_uv} 
    7575  \caption[Lateral boundary at $T$-level]{ 
    7676    Lateral boundary (thick line) at T-level. 
     
    9999\begin{figure}[!p] 
    100100  \centering 
    101   \includegraphics[width=\textwidth]{Fig_LBC_shlat} 
     101  \includegraphics[width=0.66\textwidth]{Fig_LBC_shlat} 
    102102  \caption[Lateral boundary conditions]{ 
    103103    Lateral boundary conditions 
     
    208208\begin{figure}[!t] 
    209209  \centering 
    210   \includegraphics[width=\textwidth]{Fig_LBC_jperio} 
     210  \includegraphics[width=0.66\textwidth]{Fig_LBC_jperio} 
    211211  \caption[Setting of east-west cyclic and symmetric across the Equator boundary conditions]{ 
    212212    Setting of (a) east-west cyclic (b) symmetric across the Equator boundary conditions} 
     
    231231\begin{figure}[!t] 
    232232  \centering 
    233   \includegraphics[width=\textwidth]{Fig_North_Fold_T} 
     233  \includegraphics[width=0.66\textwidth]{Fig_North_Fold_T} 
    234234  \caption[North fold boundary in ORCA 2\deg, 1/4\deg and 1/12\deg]{ 
    235235    North fold boundary with a $T$-point pivot and cyclic east-west boundary condition ($jperio=4$), 
     
    292292\begin{figure}[!t] 
    293293  \centering 
    294   \includegraphics[width=\textwidth]{Fig_mpp} 
     294  \includegraphics[width=0.66\textwidth]{Fig_mpp} 
    295295  \caption{Positioning of a sub-domain when massively parallel processing is used} 
    296296  \label{fig:LBC_mpp} 
     
    347347\begin{figure}[!ht] 
    348348  \centering 
    349   \includegraphics[width=\textwidth]{Fig_mppini2} 
     349  \includegraphics[width=0.66\textwidth]{Fig_mppini2} 
    350350  \caption[Atlantic domain defined for the CLIPPER projet]{ 
    351351    Example of Atlantic domain defined for the CLIPPER projet. 
     
    628628\begin{figure}[!t] 
    629629  \centering 
    630   \includegraphics[width=\textwidth]{Fig_LBC_bdy_geom} 
     630  \includegraphics[width=0.66\textwidth]{Fig_LBC_bdy_geom} 
    631631  \caption[Geometry of unstructured open boundary]{Example of geometry of unstructured open boundary} 
    632632  \label{fig:LBC_bdy_geom} 
     
    665665\begin{figure}[!t] 
    666666  \centering 
    667   \includegraphics[width=\textwidth]{Fig_LBC_nc_header} 
     667  \includegraphics[width=0.66\textwidth]{Fig_LBC_nc_header} 
    668668  \caption[Header for a \protect\ifile{coordinates.bdy} file]{ 
    669669    Example of the header for a \protect\ifile{coordinates.bdy} file} 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_LDF.tex

    r11558 r11561  
    242242\begin{figure}[!ht] 
    243243  \centering 
    244   \includegraphics[width=\textwidth]{Fig_LDF_ZDF1} 
     244  \includegraphics[width=0.66\textwidth]{Fig_LDF_ZDF1} 
    245245  \caption{Averaging procedure for isopycnal slope computation} 
    246246  \label{fig:LDF_ZDF1} 
     
    272272\begin{figure}[!ht] 
    273273  \centering 
    274   \includegraphics[width=\textwidth]{Fig_eiv_slp} 
     274  \includegraphics[width=0.66\textwidth]{Fig_eiv_slp} 
    275275  \caption[Vertical profile of the slope used for lateral mixing in the mixed layer]{ 
    276276    Vertical profile of the slope used for lateral mixing in the mixed layer: 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_OBS.tex

    r11558 r11561  
    700700\begin{figure} 
    701701  \centering 
    702   \includegraphics[width=\textwidth]{Fig_OBS_avg_rec} 
     702  \includegraphics[width=0.66\textwidth]{Fig_OBS_avg_rec} 
    703703  \caption[Observational weights with a rectangular footprint]{ 
    704704    Weights associated with each model grid box (blue lines and numbers) 
     
    711711\begin{figure} 
    712712  \centering 
    713   \includegraphics[width=\textwidth]{Fig_OBS_avg_rad} 
     713  \includegraphics[width=0.66\textwidth]{Fig_OBS_avg_rad} 
    714714  \caption[Observational weights with a radial footprint]{ 
    715715    Weights associated with each model grid box (blue lines and numbers) 
     
    789789\begin{figure} 
    790790  \centering 
    791   \includegraphics[width=\textwidth]{Fig_ASM_obsdist_local} 
     791  \includegraphics[width=0.66\textwidth]{Fig_ASM_obsdist_local} 
    792792  \caption[Observations with the geographical distribution]{ 
    793793    Example of the distribution of observations with 
     
    817817\begin{figure} 
    818818  \centering 
    819   \includegraphics[width=\textwidth]{Fig_ASM_obsdist_global} 
     819  \includegraphics[width=0.66\textwidth]{Fig_ASM_obsdist_global} 
    820820  \caption[Observations with the round-robin distribution]{ 
    821821    Example of the distribution of observations with 
     
    11491149\begin{figure} 
    11501150  \centering 
    1151   \includegraphics[width=\textwidth]{Fig_OBS_dataplot_main} 
     1151  \includegraphics[width=0.66\textwidth]{Fig_OBS_dataplot_main} 
    11521152  \caption{Main window of dataplot} 
    11531153  \label{fig:OBS_dataplotmain} 
     
    11611161\begin{figure} 
    11621162  \centering 
    1163   \includegraphics[width=\textwidth]{Fig_OBS_dataplot_prof} 
     1163  \includegraphics[width=0.66\textwidth]{Fig_OBS_dataplot_prof} 
    11641164  \caption[Profile plot from dataplot]{ 
    11651165    Profile plot from dataplot produced by right clicking on a point in the main window} 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_SBC.tex

    r11558 r11561  
    11781178\begin{figure}[!t] 
    11791179  \centering 
    1180   \includegraphics[width=\textwidth]{Fig_SBC_isf} 
     1180  \includegraphics[width=0.66\textwidth]{Fig_SBC_isf} 
    11811181  \caption[Ice shelf location and fresh water flux definition]{ 
    11821182    Illustration of the location where the fwf is injected and 
     
    15511551\begin{figure}[!t] 
    15521552  \centering 
    1553   \includegraphics[width=\textwidth]{Fig_SBC_diurnal} 
     1553  \includegraphics[width=0.66\textwidth]{Fig_SBC_diurnal} 
    15541554  \caption[Reconstruction of the diurnal cycle variation of short wave flux]{ 
    15551555    Example of reconstruction of the diurnal cycle variation of short wave flux from 
     
    15871587\begin{figure}[!t] 
    15881588  \centering 
    1589   \includegraphics[width=\textwidth]{Fig_SBC_dcy} 
     1589  \includegraphics[width=0.66\textwidth]{Fig_SBC_dcy} 
    15901590  \caption[Reconstruction of the diurnal cycle variation of short wave flux on an ORCA2 grid]{ 
    15911591    Example of reconstruction of the diurnal cycle variation of short wave flux from 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_TRA.tex

    r11558 r11561  
    9595\begin{figure}[!t] 
    9696  \centering 
    97   \includegraphics[width=\textwidth]{Fig_adv_scheme} 
     97  \includegraphics[width=0.66\textwidth]{Fig_adv_scheme} 
    9898  \caption[Ways to evaluate the tracer value and the amount of tracer exchanged]{ 
    9999    Schematic representation of some ways used to evaluate the tracer value at $u$-point and 
     
    867867\begin{figure}[!t] 
    868868  \centering 
    869   \includegraphics[width=\textwidth]{Fig_TRA_Irradiance} 
     869  \includegraphics[width=0.66\textwidth]{Fig_TRA_Irradiance} 
    870870  \caption[Penetration profile of the downward solar irradiance calculated by four models]{ 
    871871    Penetration profile of the downward solar irradiance calculated by four models. 
     
    897897\begin{figure}[!t] 
    898898  \centering 
    899   \includegraphics[width=\textwidth]{Fig_TRA_geoth} 
     899  \includegraphics[width=0.66\textwidth]{Fig_TRA_geoth} 
    900900  \caption[Geothermal heat flux]{ 
    901901    Geothermal Heat flux (in $mW.m^{-2}$) used by \cite{emile-geay.madec_OS09}. 
     
    10131013\begin{figure}[!t] 
    10141014  \centering 
    1015   \includegraphics[width=\textwidth]{Fig_BBL_adv} 
     1015  \includegraphics[width=0.66\textwidth]{Fig_BBL_adv} 
    10161016  \caption[Advective/diffusive bottom boundary layer]{ 
    10171017    Advective/diffusive Bottom Boundary Layer. 
     
    14081408\begin{figure}[!p] 
    14091409  \centering 
    1410   \includegraphics[width=\textwidth]{Fig_partial_step_scheme} 
     1410  \includegraphics[width=0.66\textwidth]{Fig_partial_step_scheme} 
    14111411  \caption[Discretisation of the horizontal difference and average of tracers in 
    14121412  the $z$-partial step coordinate]{ 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_ZDF.tex

    r11558 r11561  
    254254\begin{figure}[!t] 
    255255  \centering 
    256   \includegraphics[width=\textwidth]{Fig_mixing_length} 
     256  \includegraphics[width=0.66\textwidth]{Fig_mixing_length} 
    257257  \caption[Mixing length computation]{Illustration of the mixing length computation} 
    258258  \label{fig:ZDF_mixing_length} 
     
    576576\begin{figure}[!t] 
    577577  \centering 
    578   \includegraphics[width=\textwidth]{Fig_ZDF_TKE_time_scheme} 
     578  \includegraphics[width=0.66\textwidth]{Fig_ZDF_TKE_time_scheme} 
    579579  \caption[Subgrid kinetic energy integration in GLS and TKE schemes]{ 
    580580    Illustration of the subgrid kinetic energy integration in GLS and TKE schemes and 
     
    695695\begin{figure}[!htb] 
    696696  \centering 
    697   \includegraphics[width=\textwidth]{Fig_npc} 
     697  \includegraphics[width=0.66\textwidth]{Fig_npc} 
    698698  \caption[Unstable density profile treated by the non penetrative convective adjustment algorithm]{ 
    699699    Example of an unstable density profile treated by 
     
    856856\begin{figure}[!t] 
    857857  \centering 
    858   \includegraphics[width=\textwidth]{Fig_zdfddm} 
     858  \includegraphics[width=0.66\textwidth]{Fig_zdfddm} 
    859859  \caption[Diapycnal diffusivities for temperature and salt in regions of salt fingering and 
    860860  diffusive convection]{ 
     
    13741374\begin{figure}[!t] 
    13751375  \centering 
    1376   \includegraphics[width=\textwidth]{Fig_ZDF_zad_Aimp_coeff} 
     1376  \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_coeff} 
    13771377  \caption[Partitioning coefficient used to partition vertical velocities into parts]{ 
    13781378    The value of the partitioning coefficient (\cf) used to partition vertical velocities into 
     
    14141414\begin{figure}[!t] 
    14151415  \centering 
    1416   \includegraphics[width=\textwidth]{Fig_ZDF_zad_Aimp_overflow_frames} 
     1416  \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_overflow_frames} 
    14171417  \caption[OVERFLOW: time-series of temperature vertical cross-sections]{ 
    14181418    A time-series of temperature vertical cross-sections for the OVERFLOW test case. 
     
    14931493\begin{figure}[!t] 
    14941494  \centering 
    1495   \includegraphics[width=\textwidth]{Fig_ZDF_zad_Aimp_overflow_all_rdt} 
     1495  \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_overflow_all_rdt} 
    14961496  \caption[OVERFLOW: sample temperature vertical cross-sections from mid- and end-run]{ 
    14971497    Sample temperature vertical cross-sections from mid- and end-run using 
     
    15061506\begin{figure}[!t] 
    15071507  \centering 
    1508   \includegraphics[width=\textwidth]{Fig_ZDF_zad_Aimp_maxCf} 
     1508  \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_maxCf} 
    15091509  \caption[OVERFLOW: maximum partitioning coefficient during a series of test runs]{ 
    15101510    The maximum partitioning coefficient during a series of test runs with 
     
    15171517\begin{figure}[!t] 
    15181518  \centering 
    1519   \includegraphics[width=\textwidth]{Fig_ZDF_zad_Aimp_maxCf_loc} 
     1519  \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_maxCf_loc} 
    15201520  \caption[OVERFLOW: maximum partitioning coefficient for the case overlaid]{ 
    15211521    The maximum partitioning coefficient for the \forcode{nn_rdt=10.0} case overlaid with 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_cfgs.tex

    r11558 r11561  
    9494\begin{figure}[!t] 
    9595  \centering 
    96   \includegraphics[width=\textwidth]{Fig_ORCA_NH_mesh} 
     96  \includegraphics[width=0.66\textwidth]{Fig_ORCA_NH_mesh} 
    9797  \caption[ORCA mesh conception]{ 
    9898    ORCA mesh conception. 
     
    125125\begin{figure}[!tbp] 
    126126  \centering 
    127   \includegraphics[width=\textwidth]{Fig_ORCA_NH_msh05_e1_e2} 
    128   \includegraphics[width=\textwidth]{Fig_ORCA_aniso} 
     127  \includegraphics[width=0.66\textwidth]{Fig_ORCA_NH_msh05_e1_e2} 
     128  \includegraphics[width=0.66\textwidth]{Fig_ORCA_aniso} 
    129129  \caption[Horizontal scale factors and ratio of anisotropy for ORCA 0.5\deg\ mesh]{ 
    130130    \textit{Top}: Horizontal scale factors ($e_1$, $e_2$) and 
     
    278278\begin{figure}[!t] 
    279279  \centering 
    280   \includegraphics[width=\textwidth]{Fig_GYRE} 
     280  \includegraphics[width=0.66\textwidth]{Fig_GYRE} 
    281281  \caption[Snapshot of relative vorticity at the surface of the model domain in GYRE R9, R27 and R54]{ 
    282282    Snapshot of relative vorticity at the surface of the model domain in GYRE R9, R27 and R54. 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_misc.tex

    r11558 r11561  
    8686\begin{figure}[!tbp] 
    8787  \centering 
    88   \includegraphics[width=\textwidth]{Fig_Gibraltar} 
    89   \includegraphics[width=\textwidth]{Fig_Gibraltar2} 
     88  \includegraphics[width=0.66\textwidth]{Fig_Gibraltar} 
     89  \includegraphics[width=0.66\textwidth]{Fig_Gibraltar2} 
    9090  \caption[Two methods to defined the Gibraltar strait]{ 
    9191    Example of the Gibraltar strait defined in a 1\deg\ $\times$ 1\deg\ mesh. 
     
    105105\begin{figure}[!tbp] 
    106106  \centering 
    107   \includegraphics[width=\textwidth]{Fig_closea_mask_example} 
     107  \includegraphics[width=0.66\textwidth]{Fig_closea_mask_example} 
    108108  \caption[Mask fields for the \protect\mdl{closea} module]{ 
    109109    Example of mask fields for the \protect\mdl{closea} module. 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_model_basics.tex

    r11558 r11561  
    131131\begin{figure}[!ht] 
    132132  \centering 
    133   \includegraphics[width=\textwidth]{Fig_I_ocean_bc} 
     133  \includegraphics[width=0.66\textwidth]{Fig_I_ocean_bc} 
    134134  \caption[Ocean boundary conditions]{ 
    135135    The ocean is bounded by two surfaces, $z = - H(i,j)$ and $z = \eta(i,j,t)$, 
     
    332332\begin{figure}[!tb] 
    333333  \centering 
    334   \includegraphics[width=\textwidth]{Fig_I_earth_referential} 
     334  \includegraphics[width=0.66\textwidth]{Fig_I_earth_referential} 
    335335  \caption[Geographical and curvilinear coordinate systems]{ 
    336336    the geographical coordinate system $(\lambda,\varphi,z)$ and the curvilinear 
     
    746746\begin{figure}[!b] 
    747747  \centering 
    748   \includegraphics[width=\textwidth]{Fig_z_zstar} 
     748  \includegraphics[width=0.66\textwidth]{Fig_z_zstar} 
    749749  \caption[Curvilinear z-coordinate systems (\{non-\}linear free-surface cases and re-scaled \zstar)]{ 
    750750    (a) $z$-coordinate in linear free-surface case ; 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_model_basics_zstar.tex

    r11558 r11561  
    149149\begin{figure}[!t] 
    150150  \centering 
    151   \includegraphics[width=\textwidth]{Fig_DYN_dynspg_ts} 
     151  \includegraphics[width=0.66\textwidth]{Fig_DYN_dynspg_ts} 
    152152  \caption[Schematic of the split-explicit time stepping scheme for 
    153153  the barotropic and baroclinic modes, after \citet{Griffies2004?}]{ 
  • NEMO/trunk/doc/latex/NEMO/subfiles/chap_time_domain.tex

    r11558 r11561  
    187187\begin{figure}[!t] 
    188188  \centering 
    189   \includegraphics[width=\textwidth]{Fig_TimeStepping_flowchart_v4} 
     189  \includegraphics[width=0.66\textwidth]{Fig_TimeStepping_flowchart_v4} 
    190190  \caption[Leapfrog time stepping sequence with split-explicit free surface]{ 
    191191    Sketch of the leapfrog time stepping sequence in \NEMO\ with split-explicit free surface. 
     
    248248\begin{figure}[!t] 
    249249  \centering 
    250   \includegraphics[width=\textwidth]{Fig_MLF_forcing} 
     250  \includegraphics[width=0.66\textwidth]{Fig_MLF_forcing} 
    251251  \caption[Forcing integration methods for modified leapfrog (top and bottom)]{ 
    252252    Illustration of forcing integration methods. 
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