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FieldNames.md

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Module name Field name Field long name Dimension (not including time) Description (if needed) Units
dynamics ucomp zonal wind u (pfull, lat, lon) zonal component of the horizontal winds m/sec
dynamics vcomp meridional wind v (pfull, lat, lon) meridional component of the horizontal winds m/sec
dynamics ps surface pressure (lat, lon) slab pascals
dynamics slp sea level pressure (lat,lon) pascals
dynamics bk vertical coordinate sigma values (phalf) if pk = 0, then bk = sigma (dimensionless)
dynamics pk vertical coordinate pressure values (phalf) if bk = 0, then pk = pressure (i.e. phalf, BUT NB bk in Pa whereas phalf (& pfull) in hPa!) pascals
dynamics pres_full pressure at full model levels (pfull, lat, lon) pascals
dynamics pres_half pressure at half model levels (phalf, lat, lon) pascals
dynamics height geopotential height at full model levels (pfull, lat, lon) m
dynamics height_half geopotential height at half model levels (phalf, lat, lon) m
dynamics vor Vorticity (pfull, lat, lon) sec**-1
dynamics div Divergence (pfull, lat, lon) sec**-1
dynamics temp atmospheric tempertaure (pfull, lat, lon) deg_k
dynamics sphum specific humidity (pfull, lat, lon)
dynamics omega vertical velocity (pfull, lat, lon) dp/dt Pa/sec
dynamics wspd horizontal wind speed (pfull, lat, lon) sqrt(u^2 + v^2) m/sec
dynamics ucomp_sq zonal wind squared (pfull, lat, lon) (m/sec)**2
dynamics ucomp_vcomp zonal wind * meridional wind (pfull, lat, lon) (m/sec)**2
dynamics ucomp_omega zonal wind * vertical wind (pfull, lat, lon) m*Pa/sec**2
dynamics vcomp_sq meridional wind squared (pfull, lat, lon) (m/sec)**2
dynamics vcomp_omega meridional wind * vertical wind (pfull, lat, lon) m*Pa/sec**2
dynamics omega_sq omega squared (pfull, lat, lon) (Pa/sec)**2
dynamics ucomp_temp zonal wind * temperature (pfull, lat, lon) m*K/sec
dynamics vcomp_temp meridional wind * temperature (pfull, lat, lon) m*K/sec
dynamics omega_temp dp/dt * temperature (pfull, lat, lon) Pa*K/sec
dynamics temp_sq temp squared (pfull, lat, lon) deg_k**2
dynamics vcomp_vor meridional wind * vorticity (pfull, lat, lon) m/sec**2
mixed_layer t_surf surface temperature (lat, lon) slab
mixed_layer albedo surface albedo (lat, lon) static
mixed_layer ml_heat_cap mixed layer heat capacity (lat, lon)
mixed_layer flux_lhe latent heat flux up at surface (lat,lon)
mixed_layer flux_sw Net shortwave radiative flux (positive up) (phalf,lat,lon)
mixed_layer flux_lw Net longwave radiative flux (positive up) (phalf,lat,lon)
atmosphere rh relative humidity (pfull, lat, lon)
atmosphere convection_rain Rain from convection scheme (lat, lon)
atmosphere condensation_rain Large scale resolved rain (lat, lon)
atmosphere precipitation Sum of resolved rain, resolved snow and parameterised rain (lat, lon)
rrtm_radiation z_thalf
rrtm_radiation flux_sw Net short wave surface flux (lat, lon)
rrtm_radiation flux_lw Long wave surface flux (lat, lon)
rrtm_radiation rrtm_albedo Interactive albedo (lat, lon)
rrtm_radiation tdt_sw Temperature tendency due to SW radiation (pfull, lat, lon)
rrtm_radiation tdt_lw Temperature tendency due to LW radiation (pfull, lat, lon)
rrtm_radiation, two_stream tdt_rad Temperature tendency due to radiation (pfull, lat, lon)
damping, hs_forcing udt_rdamp u wind tendency for Rayleigh damping (pfull, lat, lon) m/s2
damping, hs_forcing vdt_rdamp v wind tendency for Rayleigh damping (pfull, lat, lon) m/s2
damping, hs_forcing tdt_diss_rdamp Dissipative heating from Rayleigh damping (pfull, lat, lon) deg/sec
hs_forcing tdt_ndamp Heating due to newtonian damping (pfull,lat,lon) deg/sec
hs_forcing local_heating Local heating (pfull,lat,lon) deg/sec
hs_forcing tdt Total heating: newtonian damping + local heating (pfull,lat,lon) Also includes dissipative heating if applicable deg/sec
hs_forcing teq Equilibration temperature (pfull,lat,lon) deg_K
vert_turb z_pbl depth of planetary boundary layer (lat, lon)

The following variables need to be saved to do pressure interpolation: bk, pk and ps. These should be saved for each output frequency (i.e daily and monthly if both are used).