Changeset 11561
- Timestamp:
- 2019-09-18T15:24:34+02:00 (5 years ago)
- Location:
- NEMO/trunk/doc/latex/NEMO/subfiles
- Files:
-
- 17 edited
Legend:
- Unmodified
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NEMO/trunk/doc/latex/NEMO/subfiles/apdx_DOMAINcfg.tex
r11558 r11561 114 114 \begin{figure}[!tb] 115 115 \centering 116 \includegraphics[width= \textwidth]{Fig_zgr}116 \includegraphics[width=0.66\textwidth]{Fig_zgr} 117 117 \caption[DOMAINcfg: default vertical mesh for ORCA2]{ 118 118 Default vertical mesh for ORCA2: 30 ocean levels (L30). … … 471 471 \begin{figure}[!ht] 472 472 \centering 473 \includegraphics[width= \textwidth]{Fig_sco_function}473 \includegraphics[width=0.66\textwidth]{Fig_sco_function} 474 474 \caption[DOMAINcfg: examples of the stretching function applied to a seamount]{ 475 475 Examples of the stretching function applied to a seamount; … … 522 522 \begin{figure}[!ht] 523 523 \centering 524 \includegraphics[width= \textwidth]{Fig_DOM_compare_coordinates_surface}524 \includegraphics[width=0.66\textwidth]{Fig_DOM_compare_coordinates_surface} 525 525 \caption[DOMAINcfg: comparison of $s$- and $z$-coordinate]{ 526 526 A comparison of the \citet{song.haidvogel_JCP94} $S$-coordinate (solid lines), -
NEMO/trunk/doc/latex/NEMO/subfiles/apdx_algos.tex
r11558 r11561 308 308 \begin{figure}[!ht] 309 309 \centering 310 \includegraphics[width= \textwidth]{Fig_ISO_triad}310 \includegraphics[width=0.66\textwidth]{Fig_ISO_triad} 311 311 \caption[Triads used in the Griffies's like iso-neutral diffision scheme for 312 312 $u$- and $w$-components)]{ -
NEMO/trunk/doc/latex/NEMO/subfiles/apdx_triads.tex
r11558 r11561 202 202 \begin{figure}[tb] 203 203 \centering 204 \includegraphics[width= \textwidth]{Fig_GRIFF_triad_fluxes}204 \includegraphics[width=0.66\textwidth]{Fig_GRIFF_triad_fluxes} 205 205 \caption[Triads arrangement and tracer gradients to give lateral and vertical tracer fluxes]{ 206 206 (a) Arrangement of triads $S_i$ and tracer gradients to … … 264 264 \begin{figure}[tb] 265 265 \centering 266 \includegraphics[width= \textwidth]{Fig_GRIFF_qcells}266 \includegraphics[width=0.66\textwidth]{Fig_GRIFF_qcells} 267 267 \caption[Triad notation for quarter cells]{ 268 268 Triad notation for quarter cells. … … 656 656 \begin{figure}[h] 657 657 \centering 658 \includegraphics[width= \textwidth]{Fig_GRIFF_bdry_triads}658 \includegraphics[width=0.66\textwidth]{Fig_GRIFF_bdry_triads} 659 659 \caption[Boundary triads]{ 660 660 (a) Uppermost model layer $k=1$ with $i,1$ and $i+1,1$ tracer points (black dots), … … 809 809 \begin{figure}[h] 810 810 \centering 811 \includegraphics[width= \textwidth]{Fig_GRIFF_MLB_triads}811 \includegraphics[width=0.66\textwidth]{Fig_GRIFF_MLB_triads} 812 812 \caption[Definition of mixed-layer depth and calculation of linearly tapered triads]{ 813 813 Definition of mixed-layer depth and calculation of linearly tapered triads. -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_DIA.tex
r11558 r11561 2012 2012 \begin{figure}[!t] 2013 2013 \centering 2014 \includegraphics[width= \textwidth]{Fig_mask_subasins}2014 \includegraphics[width=0.66\textwidth]{Fig_mask_subasins} 2015 2015 \caption[Decomposition of the World Ocean to compute transports as well as 2016 2016 the meridional stream-function]{ -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_DOM.tex
r11558 r11561 58 58 \begin{figure}[!tb] 59 59 \centering 60 \includegraphics[width= \textwidth]{Fig_cell}60 \includegraphics[width=0.66\textwidth]{Fig_cell} 61 61 \caption[Arrangement of variables in the unit cell of space domain]{ 62 62 Arrangement of variables in the unit cell of space domain. … … 148 148 \begin{figure}[!t] 149 149 \centering 150 \includegraphics[width= \textwidth]{Fig_zgr_e3}150 \includegraphics[width=0.66\textwidth]{Fig_zgr_e3} 151 151 \caption[Comparison of grid-point position, vertical grid-size and scale factors]{ 152 152 Comparison of (a) traditional definitions of grid-point position and grid-size in the vertical, … … 264 264 \begin{figure}[!tb] 265 265 \centering 266 \includegraphics[width= \textwidth]{Fig_index_hor}266 \includegraphics[width=0.66\textwidth]{Fig_index_hor} 267 267 \caption[Horizontal integer indexing]{ 268 268 Horizontal integer indexing used in the \fortran\ code. … … 318 318 \begin{figure}[!pt] 319 319 \centering 320 \includegraphics[width= \textwidth]{Fig_index_vert}320 \includegraphics[width=0.66\textwidth]{Fig_index_vert} 321 321 \caption[Vertical integer indexing]{ 322 322 Vertical integer indexing used in the \fortran\ code. … … 480 480 \begin{figure}[!tb] 481 481 \centering 482 \includegraphics[width= \textwidth]{Fig_z_zps_s_sps}482 \includegraphics[width=0.66\textwidth]{Fig_z_zps_s_sps} 483 483 \caption[Ocean bottom regarding coordinate systems ($z$, $s$ and hybrid $s-z$)]{ 484 484 The ocean bottom as seen by the model: -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_DYN.tex
r11558 r11561 317 317 \begin{figure}[!ht] 318 318 \centering 319 \includegraphics[width= \textwidth]{Fig_DYN_een_triad}319 \includegraphics[width=0.66\textwidth]{Fig_DYN_een_triad} 320 320 \caption[Triads used in the energy and enstrophy conserving scheme (EEN)]{ 321 321 Triads used in the energy and enstrophy conserving scheme (EEN) for … … 898 898 \begin{figure}[!t] 899 899 \centering 900 \includegraphics[width= \textwidth]{Fig_DYN_dynspg_ts}900 \includegraphics[width=0.66\textwidth]{Fig_DYN_dynspg_ts} 901 901 \caption[Split-explicit time stepping scheme for the external and internal modes]{ 902 902 Schematic of the split-explicit time stepping scheme for the external and internal modes. … … 1567 1567 \begin{figure}[!ht] 1568 1568 \centering 1569 \includegraphics[width= \textwidth]{Fig_WAD_dynhpg}1569 \includegraphics[width=0.66\textwidth]{Fig_WAD_dynhpg} 1570 1570 \caption[Combinations controlling the limiting of the horizontal pressure gradient in 1571 1571 wetting and drying regimes]{ -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_LBC.tex
r11558 r11561 72 72 \begin{figure}[!t] 73 73 \centering 74 \includegraphics[width= \textwidth]{Fig_LBC_uv}74 \includegraphics[width=0.66\textwidth]{Fig_LBC_uv} 75 75 \caption[Lateral boundary at $T$-level]{ 76 76 Lateral boundary (thick line) at T-level. … … 99 99 \begin{figure}[!p] 100 100 \centering 101 \includegraphics[width= \textwidth]{Fig_LBC_shlat}101 \includegraphics[width=0.66\textwidth]{Fig_LBC_shlat} 102 102 \caption[Lateral boundary conditions]{ 103 103 Lateral boundary conditions … … 208 208 \begin{figure}[!t] 209 209 \centering 210 \includegraphics[width= \textwidth]{Fig_LBC_jperio}210 \includegraphics[width=0.66\textwidth]{Fig_LBC_jperio} 211 211 \caption[Setting of east-west cyclic and symmetric across the Equator boundary conditions]{ 212 212 Setting of (a) east-west cyclic (b) symmetric across the Equator boundary conditions} … … 231 231 \begin{figure}[!t] 232 232 \centering 233 \includegraphics[width= \textwidth]{Fig_North_Fold_T}233 \includegraphics[width=0.66\textwidth]{Fig_North_Fold_T} 234 234 \caption[North fold boundary in ORCA 2\deg, 1/4\deg and 1/12\deg]{ 235 235 North fold boundary with a $T$-point pivot and cyclic east-west boundary condition ($jperio=4$), … … 292 292 \begin{figure}[!t] 293 293 \centering 294 \includegraphics[width= \textwidth]{Fig_mpp}294 \includegraphics[width=0.66\textwidth]{Fig_mpp} 295 295 \caption{Positioning of a sub-domain when massively parallel processing is used} 296 296 \label{fig:LBC_mpp} … … 347 347 \begin{figure}[!ht] 348 348 \centering 349 \includegraphics[width= \textwidth]{Fig_mppini2}349 \includegraphics[width=0.66\textwidth]{Fig_mppini2} 350 350 \caption[Atlantic domain defined for the CLIPPER projet]{ 351 351 Example of Atlantic domain defined for the CLIPPER projet. … … 628 628 \begin{figure}[!t] 629 629 \centering 630 \includegraphics[width= \textwidth]{Fig_LBC_bdy_geom}630 \includegraphics[width=0.66\textwidth]{Fig_LBC_bdy_geom} 631 631 \caption[Geometry of unstructured open boundary]{Example of geometry of unstructured open boundary} 632 632 \label{fig:LBC_bdy_geom} … … 665 665 \begin{figure}[!t] 666 666 \centering 667 \includegraphics[width= \textwidth]{Fig_LBC_nc_header}667 \includegraphics[width=0.66\textwidth]{Fig_LBC_nc_header} 668 668 \caption[Header for a \protect\ifile{coordinates.bdy} file]{ 669 669 Example of the header for a \protect\ifile{coordinates.bdy} file} -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_LDF.tex
r11558 r11561 242 242 \begin{figure}[!ht] 243 243 \centering 244 \includegraphics[width= \textwidth]{Fig_LDF_ZDF1}244 \includegraphics[width=0.66\textwidth]{Fig_LDF_ZDF1} 245 245 \caption{Averaging procedure for isopycnal slope computation} 246 246 \label{fig:LDF_ZDF1} … … 272 272 \begin{figure}[!ht] 273 273 \centering 274 \includegraphics[width= \textwidth]{Fig_eiv_slp}274 \includegraphics[width=0.66\textwidth]{Fig_eiv_slp} 275 275 \caption[Vertical profile of the slope used for lateral mixing in the mixed layer]{ 276 276 Vertical profile of the slope used for lateral mixing in the mixed layer: -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_OBS.tex
r11558 r11561 700 700 \begin{figure} 701 701 \centering 702 \includegraphics[width= \textwidth]{Fig_OBS_avg_rec}702 \includegraphics[width=0.66\textwidth]{Fig_OBS_avg_rec} 703 703 \caption[Observational weights with a rectangular footprint]{ 704 704 Weights associated with each model grid box (blue lines and numbers) … … 711 711 \begin{figure} 712 712 \centering 713 \includegraphics[width= \textwidth]{Fig_OBS_avg_rad}713 \includegraphics[width=0.66\textwidth]{Fig_OBS_avg_rad} 714 714 \caption[Observational weights with a radial footprint]{ 715 715 Weights associated with each model grid box (blue lines and numbers) … … 789 789 \begin{figure} 790 790 \centering 791 \includegraphics[width= \textwidth]{Fig_ASM_obsdist_local}791 \includegraphics[width=0.66\textwidth]{Fig_ASM_obsdist_local} 792 792 \caption[Observations with the geographical distribution]{ 793 793 Example of the distribution of observations with … … 817 817 \begin{figure} 818 818 \centering 819 \includegraphics[width= \textwidth]{Fig_ASM_obsdist_global}819 \includegraphics[width=0.66\textwidth]{Fig_ASM_obsdist_global} 820 820 \caption[Observations with the round-robin distribution]{ 821 821 Example of the distribution of observations with … … 1149 1149 \begin{figure} 1150 1150 \centering 1151 \includegraphics[width= \textwidth]{Fig_OBS_dataplot_main}1151 \includegraphics[width=0.66\textwidth]{Fig_OBS_dataplot_main} 1152 1152 \caption{Main window of dataplot} 1153 1153 \label{fig:OBS_dataplotmain} … … 1161 1161 \begin{figure} 1162 1162 \centering 1163 \includegraphics[width= \textwidth]{Fig_OBS_dataplot_prof}1163 \includegraphics[width=0.66\textwidth]{Fig_OBS_dataplot_prof} 1164 1164 \caption[Profile plot from dataplot]{ 1165 1165 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 1178 1178 \begin{figure}[!t] 1179 1179 \centering 1180 \includegraphics[width= \textwidth]{Fig_SBC_isf}1180 \includegraphics[width=0.66\textwidth]{Fig_SBC_isf} 1181 1181 \caption[Ice shelf location and fresh water flux definition]{ 1182 1182 Illustration of the location where the fwf is injected and … … 1551 1551 \begin{figure}[!t] 1552 1552 \centering 1553 \includegraphics[width= \textwidth]{Fig_SBC_diurnal}1553 \includegraphics[width=0.66\textwidth]{Fig_SBC_diurnal} 1554 1554 \caption[Reconstruction of the diurnal cycle variation of short wave flux]{ 1555 1555 Example of reconstruction of the diurnal cycle variation of short wave flux from … … 1587 1587 \begin{figure}[!t] 1588 1588 \centering 1589 \includegraphics[width= \textwidth]{Fig_SBC_dcy}1589 \includegraphics[width=0.66\textwidth]{Fig_SBC_dcy} 1590 1590 \caption[Reconstruction of the diurnal cycle variation of short wave flux on an ORCA2 grid]{ 1591 1591 Example of reconstruction of the diurnal cycle variation of short wave flux from -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_TRA.tex
r11558 r11561 95 95 \begin{figure}[!t] 96 96 \centering 97 \includegraphics[width= \textwidth]{Fig_adv_scheme}97 \includegraphics[width=0.66\textwidth]{Fig_adv_scheme} 98 98 \caption[Ways to evaluate the tracer value and the amount of tracer exchanged]{ 99 99 Schematic representation of some ways used to evaluate the tracer value at $u$-point and … … 867 867 \begin{figure}[!t] 868 868 \centering 869 \includegraphics[width= \textwidth]{Fig_TRA_Irradiance}869 \includegraphics[width=0.66\textwidth]{Fig_TRA_Irradiance} 870 870 \caption[Penetration profile of the downward solar irradiance calculated by four models]{ 871 871 Penetration profile of the downward solar irradiance calculated by four models. … … 897 897 \begin{figure}[!t] 898 898 \centering 899 \includegraphics[width= \textwidth]{Fig_TRA_geoth}899 \includegraphics[width=0.66\textwidth]{Fig_TRA_geoth} 900 900 \caption[Geothermal heat flux]{ 901 901 Geothermal Heat flux (in $mW.m^{-2}$) used by \cite{emile-geay.madec_OS09}. … … 1013 1013 \begin{figure}[!t] 1014 1014 \centering 1015 \includegraphics[width= \textwidth]{Fig_BBL_adv}1015 \includegraphics[width=0.66\textwidth]{Fig_BBL_adv} 1016 1016 \caption[Advective/diffusive bottom boundary layer]{ 1017 1017 Advective/diffusive Bottom Boundary Layer. … … 1408 1408 \begin{figure}[!p] 1409 1409 \centering 1410 \includegraphics[width= \textwidth]{Fig_partial_step_scheme}1410 \includegraphics[width=0.66\textwidth]{Fig_partial_step_scheme} 1411 1411 \caption[Discretisation of the horizontal difference and average of tracers in 1412 1412 the $z$-partial step coordinate]{ -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_ZDF.tex
r11558 r11561 254 254 \begin{figure}[!t] 255 255 \centering 256 \includegraphics[width= \textwidth]{Fig_mixing_length}256 \includegraphics[width=0.66\textwidth]{Fig_mixing_length} 257 257 \caption[Mixing length computation]{Illustration of the mixing length computation} 258 258 \label{fig:ZDF_mixing_length} … … 576 576 \begin{figure}[!t] 577 577 \centering 578 \includegraphics[width= \textwidth]{Fig_ZDF_TKE_time_scheme}578 \includegraphics[width=0.66\textwidth]{Fig_ZDF_TKE_time_scheme} 579 579 \caption[Subgrid kinetic energy integration in GLS and TKE schemes]{ 580 580 Illustration of the subgrid kinetic energy integration in GLS and TKE schemes and … … 695 695 \begin{figure}[!htb] 696 696 \centering 697 \includegraphics[width= \textwidth]{Fig_npc}697 \includegraphics[width=0.66\textwidth]{Fig_npc} 698 698 \caption[Unstable density profile treated by the non penetrative convective adjustment algorithm]{ 699 699 Example of an unstable density profile treated by … … 856 856 \begin{figure}[!t] 857 857 \centering 858 \includegraphics[width= \textwidth]{Fig_zdfddm}858 \includegraphics[width=0.66\textwidth]{Fig_zdfddm} 859 859 \caption[Diapycnal diffusivities for temperature and salt in regions of salt fingering and 860 860 diffusive convection]{ … … 1374 1374 \begin{figure}[!t] 1375 1375 \centering 1376 \includegraphics[width= \textwidth]{Fig_ZDF_zad_Aimp_coeff}1376 \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_coeff} 1377 1377 \caption[Partitioning coefficient used to partition vertical velocities into parts]{ 1378 1378 The value of the partitioning coefficient (\cf) used to partition vertical velocities into … … 1414 1414 \begin{figure}[!t] 1415 1415 \centering 1416 \includegraphics[width= \textwidth]{Fig_ZDF_zad_Aimp_overflow_frames}1416 \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_overflow_frames} 1417 1417 \caption[OVERFLOW: time-series of temperature vertical cross-sections]{ 1418 1418 A time-series of temperature vertical cross-sections for the OVERFLOW test case. … … 1493 1493 \begin{figure}[!t] 1494 1494 \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} 1496 1496 \caption[OVERFLOW: sample temperature vertical cross-sections from mid- and end-run]{ 1497 1497 Sample temperature vertical cross-sections from mid- and end-run using … … 1506 1506 \begin{figure}[!t] 1507 1507 \centering 1508 \includegraphics[width= \textwidth]{Fig_ZDF_zad_Aimp_maxCf}1508 \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_maxCf} 1509 1509 \caption[OVERFLOW: maximum partitioning coefficient during a series of test runs]{ 1510 1510 The maximum partitioning coefficient during a series of test runs with … … 1517 1517 \begin{figure}[!t] 1518 1518 \centering 1519 \includegraphics[width= \textwidth]{Fig_ZDF_zad_Aimp_maxCf_loc}1519 \includegraphics[width=0.66\textwidth]{Fig_ZDF_zad_Aimp_maxCf_loc} 1520 1520 \caption[OVERFLOW: maximum partitioning coefficient for the case overlaid]{ 1521 1521 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 94 94 \begin{figure}[!t] 95 95 \centering 96 \includegraphics[width= \textwidth]{Fig_ORCA_NH_mesh}96 \includegraphics[width=0.66\textwidth]{Fig_ORCA_NH_mesh} 97 97 \caption[ORCA mesh conception]{ 98 98 ORCA mesh conception. … … 125 125 \begin{figure}[!tbp] 126 126 \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} 129 129 \caption[Horizontal scale factors and ratio of anisotropy for ORCA 0.5\deg\ mesh]{ 130 130 \textit{Top}: Horizontal scale factors ($e_1$, $e_2$) and … … 278 278 \begin{figure}[!t] 279 279 \centering 280 \includegraphics[width= \textwidth]{Fig_GYRE}280 \includegraphics[width=0.66\textwidth]{Fig_GYRE} 281 281 \caption[Snapshot of relative vorticity at the surface of the model domain in GYRE R9, R27 and R54]{ 282 282 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 86 86 \begin{figure}[!tbp] 87 87 \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} 90 90 \caption[Two methods to defined the Gibraltar strait]{ 91 91 Example of the Gibraltar strait defined in a 1\deg\ $\times$ 1\deg\ mesh. … … 105 105 \begin{figure}[!tbp] 106 106 \centering 107 \includegraphics[width= \textwidth]{Fig_closea_mask_example}107 \includegraphics[width=0.66\textwidth]{Fig_closea_mask_example} 108 108 \caption[Mask fields for the \protect\mdl{closea} module]{ 109 109 Example of mask fields for the \protect\mdl{closea} module. -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_model_basics.tex
r11558 r11561 131 131 \begin{figure}[!ht] 132 132 \centering 133 \includegraphics[width= \textwidth]{Fig_I_ocean_bc}133 \includegraphics[width=0.66\textwidth]{Fig_I_ocean_bc} 134 134 \caption[Ocean boundary conditions]{ 135 135 The ocean is bounded by two surfaces, $z = - H(i,j)$ and $z = \eta(i,j,t)$, … … 332 332 \begin{figure}[!tb] 333 333 \centering 334 \includegraphics[width= \textwidth]{Fig_I_earth_referential}334 \includegraphics[width=0.66\textwidth]{Fig_I_earth_referential} 335 335 \caption[Geographical and curvilinear coordinate systems]{ 336 336 the geographical coordinate system $(\lambda,\varphi,z)$ and the curvilinear … … 746 746 \begin{figure}[!b] 747 747 \centering 748 \includegraphics[width= \textwidth]{Fig_z_zstar}748 \includegraphics[width=0.66\textwidth]{Fig_z_zstar} 749 749 \caption[Curvilinear z-coordinate systems (\{non-\}linear free-surface cases and re-scaled \zstar)]{ 750 750 (a) $z$-coordinate in linear free-surface case ; -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_model_basics_zstar.tex
r11558 r11561 149 149 \begin{figure}[!t] 150 150 \centering 151 \includegraphics[width= \textwidth]{Fig_DYN_dynspg_ts}151 \includegraphics[width=0.66\textwidth]{Fig_DYN_dynspg_ts} 152 152 \caption[Schematic of the split-explicit time stepping scheme for 153 153 the barotropic and baroclinic modes, after \citet{Griffies2004?}]{ -
NEMO/trunk/doc/latex/NEMO/subfiles/chap_time_domain.tex
r11558 r11561 187 187 \begin{figure}[!t] 188 188 \centering 189 \includegraphics[width= \textwidth]{Fig_TimeStepping_flowchart_v4}189 \includegraphics[width=0.66\textwidth]{Fig_TimeStepping_flowchart_v4} 190 190 \caption[Leapfrog time stepping sequence with split-explicit free surface]{ 191 191 Sketch of the leapfrog time stepping sequence in \NEMO\ with split-explicit free surface. … … 248 248 \begin{figure}[!t] 249 249 \centering 250 \includegraphics[width= \textwidth]{Fig_MLF_forcing}250 \includegraphics[width=0.66\textwidth]{Fig_MLF_forcing} 251 251 \caption[Forcing integration methods for modified leapfrog (top and bottom)]{ 252 252 Illustration of forcing integration methods.
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