netcdf sgpbbhrp1mlawer1C1.c1.20060227.000030 { dimensions: time = UNLIMITED ; // (1440 currently) level = 300 ; layer = 299 ; band_lw = 16 ; band_sw = 14 ; variables: int base_time ; base_time:string = "27-Feb-2006,0:00:30 GMT" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2006-02-27 00:00:30 0:00" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2006-02-27 00:00:00 0:00" ; float start_wnum_lw(band_lw) ; start_wnum_lw:long_name = "Wavenumber for start of longwave band" ; start_wnum_lw:units = "cm-1" ; float end_wnum_lw(band_lw) ; end_wnum_lw:long_name = "Wavenumber for end of longwave band" ; end_wnum_lw:units = "cm-1" ; float start_wnum_sw(band_sw) ; start_wnum_sw:long_name = "Wavenumber for start of shortwave band" ; start_wnum_sw:units = "cm-1" ; float end_wnum_sw(band_sw) ; end_wnum_sw:long_name = "Wavenumber for end of shortwave band" ; end_wnum_sw:units = "cm-1" ; int nlevels(time) ; nlevels:long_name = "Number of atmospheric levels for RRTM for this time" ; nlevels:units = "unitless" ; int nlayers(time) ; nlayers:long_name = "Number of atmospheric layers for RRTM for this time" ; nlayers:units = "unitless" ; nlayers:comment = "nlayers = nlevels-1" ; int cloud_flag(time) ; cloud_flag:long_name = "Cloud existence flag" ; cloud_flag:units = "unitless" ; cloud_flag:comment = "1 = cloud, 0 = no cloud" ; int sw_direct_flag(time) ; sw_direct_flag:long_name = "Source for direct beam measurement" ; sw_direct_flag:units = "unitless" ; sw_direct_flag:comment = "0 = no correction, 1 = direct corrected, 2 = direct zeroed out" ; int sonde_unscaled(time) ; sonde_unscaled:long_name = "flag for input sonde MWR scaling" ; sonde_unscaled:units = "unitless" ; sonde_unscaled:comment = "0 = scaled, 1 = unscaled" ; float mean_atm_pressure(time) ; mean_atm_pressure:long_name = "Mean atmospheric pressure at the surface" ; mean_atm_pressure:units = "hPa" ; float mean_atm_temperature(time) ; mean_atm_temperature:long_name = "Mean atmospheric temperature at the surface" ; mean_atm_temperature:units = "degK" ; float column_ozone(time) ; column_ozone:long_name = "Total column ozone amount" ; column_ozone:units = "Dobson units" ; float column_pwv(time) ; column_pwv:long_name = "Total column precipitable water vapor" ; column_pwv:units = "cm" ; float solar_zenith(time) ; solar_zenith:long_name = "Solar zenith angle" ; solar_zenith:units = "deg" ; float trop_level(time) ; trop_level:long_name = "Pressure at tropopause level" ; trop_level:units = "mb" ; float meas_lw_toa_flux(time) ; meas_lw_toa_flux:long_name = "Measured upward longwave flux at TOA" ; meas_lw_toa_flux:units = "W/m2" ; float meas_sw_toa_flux(time) ; meas_sw_toa_flux:long_name = "Measured downward shortwave net flux at TOA" ; meas_sw_toa_flux:units = "W/m2" ; float meas_toa_time_diff(time) ; meas_toa_time_diff:long_name = "Difference between sample time of model run and measurement time for TOA" ; meas_toa_time_diff:units = "seconds" ; float meas_toa_distance(time) ; meas_toa_distance:long_name = "Distance between location for model run and measurement footprint location for TOA" ; meas_toa_distance:units = "km" ; float meas_toa_instr(time) ; meas_toa_instr:long_name = "Instrument used for TOA measurement" ; meas_toa_instr:units = "unitless" ; float height(time, level) ; height:long_name = "Heights above sea level for each RRTM level" ; height:units = "km" ; float pressure(time, level) ; pressure:long_name = "Pressures at each RRTM level" ; pressure:units = "mb" ; float temperature(time, level) ; temperature:long_name = "Temperatures at each RRTM level" ; temperature:units = "degK" ; float lw_heating_rate(time, layer) ; lw_heating_rate:long_name = "Longwave heating rates over each RRTM layer" ; lw_heating_rate:units = "deg/dy" ; float sw_heating_rate(time, layer) ; sw_heating_rate:long_name = "Shortwave heating rates over each RRTM layer" ; sw_heating_rate:units = "deg/dy" ; float lw_up_flux(time, level) ; lw_up_flux:long_name = "Longwave upwelling flux at each RRTM level" ; lw_up_flux:units = "W/m2" ; float lw_dn_flux(time, level) ; lw_dn_flux:long_name = "Longwave downwelling flux at each RRTM level" ; lw_dn_flux:units = "W/m2" ; float lw_net_flux(time, level) ; lw_net_flux:long_name = "Longwave net upward flux at each RRTM level" ; lw_net_flux:units = "W/m2" ; float sw_up_flux(time, level) ; sw_up_flux:long_name = "Shortwave upwelling flux at each RRTM level" ; sw_up_flux:units = "W/m2" ; float sw_diffuse_flux(time, level) ; sw_diffuse_flux:long_name = "Shortwave diffuse downward flux at each RRTM level" ; sw_diffuse_flux:units = "W/m2" ; float sw_direct_horiz_flux(time, level) ; sw_direct_horiz_flux:long_name = "Shortwave direct horizontal flux at each RRTM level" ; sw_direct_horiz_flux:units = "W/m2" ; float sw_dn_flux(time, level) ; sw_dn_flux:long_name = "Shortwave total downward flux at each RRTM level" ; sw_dn_flux:units = "W/m2" ; sw_dn_flux:comment = "total flux = diffuse + direct horizontal" ; float sw_net_flux(time, level) ; sw_net_flux:long_name = "Shortwave net downward flux at each RRTM level" ; sw_net_flux:units = "W/m2" ; sw_net_flux:comment = "net flux = total downward - upward flux" ; float lw_dn_surf_flux(time) ; lw_dn_surf_flux:long_name = "Longwave downwelling flux at surface" ; lw_dn_surf_flux:units = "W/m2" ; float lw_up_surf_flux(time) ; lw_up_surf_flux:long_name = "Longwave upwelling flux at surface" ; lw_up_surf_flux:units = "W/m2" ; float lw_net_surf_flux(time) ; lw_net_surf_flux:long_name = "Longwave net upward flux at surface" ; lw_net_surf_flux:units = "W/m2" ; float sw_up_surf_flux(time) ; sw_up_surf_flux:long_name = "Shortwave upwelling flux at surface" ; sw_up_surf_flux:units = "W/m2" ; float sw_direct_normal_surf_flux(time) ; sw_direct_normal_surf_flux:long_name = "Shortwave direct normal flux at surface" ; sw_direct_normal_surf_flux:units = "W/m2" ; float sw_direct_horiz_surf_flux(time) ; sw_direct_horiz_surf_flux:long_name = "Shortwave direct horizontal flux at surface" ; sw_direct_horiz_surf_flux:units = "W/m2" ; sw_direct_horiz_surf_flux:comment = "direct horiz = direct norm * cos(zenith)" ; float sw_diffuse_surf_flux(time) ; sw_diffuse_surf_flux:long_name = "Shortwave diffuse flux at surface" ; sw_diffuse_surf_flux:units = "W/m2" ; float sw_dn_surf_flux(time) ; sw_dn_surf_flux:long_name = "Shortwave total downward flux at surface" ; sw_dn_surf_flux:units = "W/m2" ; sw_dn_surf_flux:comment = "total flux = diffuse + direct horizontal" ; float sw_net_surf_flux(time) ; sw_net_surf_flux:long_name = "Shortwave net downward flux at surface" ; sw_net_surf_flux:units = "W/m2" ; sw_net_surf_flux:comment = "net flux = total downward - upward flux" ; float lw_up_toa_flux(time) ; lw_up_toa_flux:long_name = "Longwave upwelling flux at TOA" ; lw_up_toa_flux:units = "W/m2" ; float lw_dn_toa_flux(time) ; lw_dn_toa_flux:long_name = "Longwave downwelling flux at TOA" ; lw_dn_toa_flux:units = "W/m2" ; float lw_net_toa_flux(time) ; lw_net_toa_flux:long_name = "Longwave net upward flux at TOA" ; lw_net_toa_flux:units = "W/m2" ; lw_net_toa_flux:comment = "net flux = upward flux - downward flux" ; float sw_up_toa_flux(time) ; sw_up_toa_flux:long_name = "Shortwave upwelling flux at TOA" ; sw_up_toa_flux:units = "W/m2" ; float sw_dn_toa_flux(time) ; sw_dn_toa_flux:long_name = "Shortwave downwelling flux at TOA" ; sw_dn_toa_flux:units = "W/m2" ; float sw_net_toa_flux(time) ; sw_net_toa_flux:long_name = "Shortwave net downward flux at TOA" ; sw_net_toa_flux:units = "W/m2" ; sw_net_toa_flux:comment = "net flux = downward flux - upward flux" ; float clear_lw_heating_rate(time, layer) ; clear_lw_heating_rate:long_name = "Longwave heating rates over each RRTM layer, clear sky run" ; clear_lw_heating_rate:units = "deg/dy" ; float clear_sw_heating_rate(time, layer) ; clear_sw_heating_rate:long_name = "Shortwave heating rates over each RRTM layer, clear sky run" ; clear_sw_heating_rate:units = "deg/dy" ; float clear_lw_up_flux(time, level) ; clear_lw_up_flux:long_name = "Longwave upwelling flux at each RRTM level, clear sky run" ; clear_lw_up_flux:units = "W/m2" ; float clear_lw_dn_flux(time, level) ; clear_lw_dn_flux:long_name = "Longwave downwelling flux at each RRTM level, clear sky run" ; clear_lw_dn_flux:units = "W/m2" ; float clear_lw_net_flux(time, level) ; clear_lw_net_flux:long_name = "Longwave net upward flux at each RRTM level, clear sky run" ; clear_lw_net_flux:units = "W/m2" ; float clear_sw_up_flux(time, level) ; clear_sw_up_flux:long_name = "Shortwave upwelling flux at each RRTM level, clear sky run" ; clear_sw_up_flux:units = "W/m2" ; float clear_sw_diffuse_flux(time, level) ; clear_sw_diffuse_flux:long_name = "Shortwave diffuse downward flux at each RRTM level, clear sky run" ; clear_sw_diffuse_flux:units = "W/m2" ; float clear_sw_direct_horiz_flux(time, level) ; clear_sw_direct_horiz_flux:long_name = "Shortwave direct horizontal flux at each RRTM level, clear sky run" ; clear_sw_direct_horiz_flux:units = "W/m2" ; float clear_sw_dn_flux(time, level) ; clear_sw_dn_flux:long_name = "Shortwave total downward flux at each RRTM level, clear sky run" ; clear_sw_dn_flux:units = "W/m2" ; clear_sw_dn_flux:comment = "total flux = diffuse + direct horizontal" ; float clear_sw_net_flux(time, level) ; clear_sw_net_flux:long_name = "Shortwave net downward flux at each RRTM level, clear sky run" ; clear_sw_net_flux:units = "W/m2" ; clear_sw_net_flux:comment = "net flux = total downward - upward flux" ; float clear_lw_dn_surf_flux(time) ; clear_lw_dn_surf_flux:long_name = "Longwave downwelling flux at surface, clear sky run" ; clear_lw_dn_surf_flux:units = "W/m2" ; float clear_lw_up_surf_flux(time) ; clear_lw_up_surf_flux:long_name = "Longwave upwelling flux at surface, clear sky run" ; clear_lw_up_surf_flux:units = "W/m2" ; float clear_lw_net_surf_flux(time) ; clear_lw_net_surf_flux:long_name = "Longwave net upward flux at surface, clear sky run" ; clear_lw_net_surf_flux:units = "W/m2" ; float clear_sw_up_surf_flux(time) ; clear_sw_up_surf_flux:long_name = "Shortwave upwelling flux at surface, clear sky run" ; clear_sw_up_surf_flux:units = "W/m2" ; float clear_sw_direct_normal_surf_flux(time) ; clear_sw_direct_normal_surf_flux:long_name = "Shortwave direct normal flux at surface, clear sky run" ; clear_sw_direct_normal_surf_flux:units = "W/m2" ; float clear_sw_direct_horiz_surf_flux(time) ; clear_sw_direct_horiz_surf_flux:long_name = "Shortwave direct horizontal flux at surface, clear sky run" ; clear_sw_direct_horiz_surf_flux:units = "W/m2" ; clear_sw_direct_horiz_surf_flux:comment = "direct horiz = direct norm * cos(zenith)" ; float clear_sw_diffuse_surf_flux(time) ; clear_sw_diffuse_surf_flux:long_name = "Shortwave diffuse flux at surface, clear sky run" ; clear_sw_diffuse_surf_flux:units = "W/m2" ; float clear_sw_dn_surf_flux(time) ; clear_sw_dn_surf_flux:long_name = "Shortwave total downward flux at surface, clear sky run" ; clear_sw_dn_surf_flux:units = "W/m2" ; clear_sw_dn_surf_flux:comment = "total flux = diffuse + direct horizontal" ; float clear_sw_net_surf_flux(time) ; clear_sw_net_surf_flux:long_name = "Shortwave net downward flux at surface, clear sky run" ; clear_sw_net_surf_flux:units = "W/m2" ; clear_sw_net_surf_flux:comment = "net flux = total downward - upward flux" ; float clear_lw_up_toa_flux(time) ; clear_lw_up_toa_flux:long_name = "Longwave upwelling flux at TOA, clear sky run" ; clear_lw_up_toa_flux:units = "W/m2" ; float clear_lw_dn_toa_flux(time) ; clear_lw_dn_toa_flux:long_name = "Longwave downwelling flux at TOA, clear sky run" ; clear_lw_dn_toa_flux:units = "W/m2" ; float clear_lw_net_toa_flux(time) ; clear_lw_net_toa_flux:long_name = "Longwave net upward flux at TOA, clear sky run" ; clear_lw_net_toa_flux:units = "W/m2" ; clear_lw_net_toa_flux:comment = "net flux = upward flux - downward flux" ; float clear_sw_up_toa_flux(time) ; clear_sw_up_toa_flux:long_name = "Shortwave upwelling flux at TOA, clear sky run" ; clear_sw_up_toa_flux:units = "W/m2" ; float clear_sw_dn_toa_flux(time) ; clear_sw_dn_toa_flux:long_name = "Shortwave downwelling flux at TOA, clear sky run" ; clear_sw_dn_toa_flux:units = "W/m2" ; float clear_sw_net_toa_flux(time) ; clear_sw_net_toa_flux:long_name = "Shortwave net downward flux at TOA, clear sky run" ; clear_sw_net_toa_flux:units = "W/m2" ; clear_sw_net_toa_flux:comment = "net flux = downward flux - upward flux" ; float meas_lw_surf_flux(time) ; meas_lw_surf_flux:long_name = "Measured longwave flux at surface" ; meas_lw_surf_flux:units = "W/m2" ; meas_lw_surf_flux:comment = "From best estimate flux VAP, sgpbeflux1longC1" ; float meas_lw_surf_flux_sdev(time) ; meas_lw_surf_flux_sdev:long_name = "Standard deviation of longwave surface flux over 5 minute integration time" ; meas_lw_surf_flux_sdev:units = "W/m2" ; float meas_sw_diffuse_surf_flux(time) ; meas_sw_diffuse_surf_flux:long_name = "Measured shortwave diffuse flux at surface" ; meas_sw_diffuse_surf_flux:units = "W/m2" ; meas_sw_diffuse_surf_flux:comment = "From best estimate flux VAP, sgpbeflux1longC1" ; float meas_sw_diffuse_surf_flux_sdev(time) ; meas_sw_diffuse_surf_flux_sdev:long_name = "Standard deviation of shortwave diffuse flux over 5 minute integration time" ; meas_sw_diffuse_surf_flux_sdev:units = "W/m2" ; float meas_sw_direct_normal_surf_flux(time) ; meas_sw_direct_normal_surf_flux:long_name = "Measured shortwave direct normal flux at surface" ; meas_sw_direct_normal_surf_flux:units = "W/m2" ; meas_sw_direct_normal_surf_flux:comment = "From best estimate flux VAP, sgpbeflux1longC1" ; float meas_sw_direct_normal_surf_flux_sdev(time) ; meas_sw_direct_normal_surf_flux_sdev:long_name = "Standard deviation of direct normal flux over 5 minute integration time" ; meas_sw_direct_normal_surf_flux_sdev:units = "W/m2" ; float meas_sw_direct_horiz_surf_flux(time) ; meas_sw_direct_horiz_surf_flux:long_name = "Measure shortwave direct horizontal flux at surface" ; meas_sw_direct_horiz_surf_flux:units = "W/m2" ; meas_sw_direct_horiz_surf_flux:comment = "From best estimate flux VAP, sgpbeflux1longC1" ; meas_sw_direct_horiz_surf_flux:comment2 = "direct horizontal = direct normal * cos(zenith)" ; float meas_sw_dn_surf_flux(time) ; meas_sw_dn_surf_flux:long_name = "Measure shortwave total flux at surface" ; meas_sw_dn_surf_flux:units = "W/m2" ; meas_sw_dn_surf_flux:comment = "From best estimate flux VAP, sgpbeflux1longC1" ; float meas_sw_dn_surf_flux_sdev(time) ; meas_sw_dn_surf_flux_sdev:long_name = "Standard deviation of total shortwave surface flux over 5 minute integration time" ; meas_sw_dn_surf_flux_sdev:units = "W/m2" ; float meas_sw_up_surf_flux(time) ; meas_sw_up_surf_flux:long_name = "Measure shortwave upwelling flux at surface" ; meas_sw_up_surf_flux:units = "W/m2" ; meas_sw_up_surf_flux:comment = "From best estimate flux VAP, sgpbeflux1longC1" ; float meas_sw_up_surf_flux_sdev(time) ; meas_sw_up_surf_flux_sdev:long_name = "Standard deviation of upwelling shortwave surface flux over 5 minute integration time" ; meas_sw_up_surf_flux_sdev:units = "W/m2" ; float cld_tot_lwp(time) ; cld_tot_lwp:long_name = "Total liquid water path through all cloud layers, weighted by cloud fraction per layer" ; cld_tot_lwp:units = "g/m2" ; cld_tot_lwp:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_tot_iwp(time) ; cld_tot_iwp:long_name = "Total ice water path through all cloud layers (weighted by cloud fraction per layer)" ; cld_tot_iwp:units = "g/m2" ; cld_tot_iwp:comment = "From sgpmicrobasepiavgC1.c1" ; float aqc_cloudflag(time) ; aqc_cloudflag:long_name = "QC flag passed through for use in postprocessing" ; aqc_cloudflag:units = "unitless" ; aqc_cloudflag:convention = "0 = sample okay, >= 1 = problem with sample, -9999 = no QC info passed through" ; aqc_cloudflag:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_cfrac(time, layer) ; cld_cfrac:long_name = "Cloud fraction for each RRTM layer" ; cld_cfrac:units = "unitless" ; cld_cfrac:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_lwp(time, layer) ; cld_lwp:long_name = "Cloud liquid water path for each RRTM layer" ; cld_lwp:units = "g/m2" ; cld_lwp:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_iwp(time, layer) ; cld_iwp:long_name = "Cloud ice water path for each RRTM layer" ; cld_iwp:units = "g/m2" ; cld_iwp:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_icefrac(time, layer) ; cld_icefrac:long_name = "Cloud ice fraction for each RRTM layer" ; cld_icefrac:units = "unitless" ; cld_icefrac:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_dgeice(time, layer) ; cld_dgeice:long_name = "Cloud generalized ice effective diameter (Fu) for each RRTM layer" ; cld_dgeice:units = "m-6" ; cld_dgeice:comment = "From sgpmicrobasepiavgC1.c1" ; float cld_reliq(time, layer) ; cld_reliq:long_name = "Cloud liquid effective radius for each RRTM layer" ; cld_reliq:units = "m-6" ; cld_reliq:comment = "From sgpmicrobasepiavgC1.c1" ; float aerosol_alpha(time, layer) ; aerosol_alpha:long_name = "Angstrom alpha exponent" ; aerosol_alpha:units = "unitless" ; aerosol_alpha:comment = "AOD = angstrom_beta_700*(nu/700)^(-angstrom_alpha)" ; float aerosol_beta_700(time, layer) ; aerosol_beta_700:long_name = "Angstrom beta exponent, normalized to 700nm" ; aerosol_beta_700:units = "unitless" ; aerosol_beta_700:comment = "AOD = angstrom_beta_700*(nu/700)^(-angstrom_alpha)" ; float aerosol_ssa(time, band_sw, layer) ; aerosol_ssa:long_name = "Aerosol single scattering albedo" ; aerosol_ssa:units = "unitless" ; float aerosol_g(time, band_sw, layer) ; aerosol_g:long_name = "Aerosol asymetry parameter" ; aerosol_g:units = "unitless" ; float aqc_aerosol_alpha_flag(time) ; aqc_aerosol_alpha_flag:long_name = "Aerosol alpha interpolation flag" ; aqc_aerosol_alpha_flag:units = "unitless" ; aqc_aerosol_alpha_flag:comment = "0 = original data from ABE, 1 = interpolated, 2 = interpolated with klimatology on one end, 3 = klimatology" ; float aqc_aerosol_beta_flag(time) ; aqc_aerosol_beta_flag:long_name = "Aerosol beta interpolation flag" ; aqc_aerosol_beta_flag:units = "unitless" ; aqc_aerosol_beta_flag:comment = "0 = original data from ABE, 1 = interpolated, 2 = interpolated with klimatology on one end, 3 = klimatology, 5 = replaced by interpolated extinction profile (integrated)" ; float aqc_aerosol_extinction_flag(time) ; aqc_aerosol_extinction_flag:long_name = "Aerosol extinction profile flag" ; aqc_aerosol_extinction_flag:units = "unitless" ; aqc_aerosol_extinction_flag:comment = "0 = original data from ABE, 1 = interpolated, 2 = interpolated with klimatology on one end, 3 = klimatology" ; float aqc_aerosol_ssa_flag(time) ; aqc_aerosol_ssa_flag:long_name = "Aerosol single scattering albedo interpolation flag" ; aqc_aerosol_ssa_flag:units = "unitless" ; aqc_aerosol_ssa_flag:comment = "0 = original data from ABE, 1 = interpolated, 2 = interpolated with klimatology on one end, 3 = klimatology" ; float aqc_aerosol_g_flag(time) ; aqc_aerosol_g_flag:long_name = "Aerosol asymmetry parameter interpolation flag" ; aqc_aerosol_g_flag:units = "unitless" ; aqc_aerosol_g_flag:comment = "0 = original data from ABE, 1 = interpolated, 2 = interpolated with klimatology on one end, 3 = klimatology" ; float surf_albedo_broadband(time) ; surf_albedo_broadband:long_name = "Broadband surface albedo" ; surf_albedo_broadband:units = "unitless" ; float surf_albedo_band(time, band_sw) ; surf_albedo_band:long_name = "Spectral surface albedo by RRTM band" ; surf_albedo_band:units = "unitless" ; float sw_up_surf_flux_band(time, band_sw) ; sw_up_surf_flux_band:long_name = "Shortwave upwelling flux at surface for each RRTM band" ; sw_up_surf_flux_band:units = "W/m2" ; float sw_direct_normal_surf_flux_band(time, band_sw) ; sw_direct_normal_surf_flux_band:long_name = "Shortwave direct normal flux at surface for each RRTM band" ; sw_direct_normal_surf_flux_band:units = "W/m2" ; float sw_direct_horiz_surf_flux_band(time, band_sw) ; sw_direct_horiz_surf_flux_band:long_name = "Shortwave direct horizontal flux at surface for each RRTM band" ; sw_direct_horiz_surf_flux_band:units = "W/m2" ; float sw_diffuse_surf_flux_band(time, band_sw) ; sw_diffuse_surf_flux_band:long_name = "Shortwave diffuse flux at surface for each RRTM band" ; sw_diffuse_surf_flux_band:units = "W/m2" ; float sw_dn_surf_flux_band(time, band_sw) ; sw_dn_surf_flux_band:long_name = "Shortwave total downwelling flux at surface for each RRTM band" ; sw_dn_surf_flux_band:units = "W/m2" ; float sw_net_surf_flux_band(time, band_sw) ; sw_net_surf_flux_band:long_name = "Shortwave net downward flux at surface for each RRTM band" ; sw_net_surf_flux_band:units = "W/m2" ; float sw_up_toa_flux_band(time, band_sw) ; sw_up_toa_flux_band:long_name = "Shortwave upwelling flux at TOA for each RRTM band" ; sw_up_toa_flux_band:units = "W/m2" ; float sw_dn_toa_flux_band(time, band_sw) ; sw_dn_toa_flux_band:long_name = "Shortwave downwelling flux at TOA for each RRTM band" ; sw_dn_toa_flux_band:units = "W/m2" ; float sw_net_toa_flux_band(time, band_sw) ; sw_net_toa_flux_band:long_name = "Shortwave net downward flux at TOA for each RRTM band" ; sw_net_toa_flux_band:units = "W/m2" ; float sw_up_trop_flux_band(time, band_sw) ; sw_up_trop_flux_band:long_name = "Shortwave upwelling flux at tropopause for each RRTM band" ; sw_up_trop_flux_band:units = "W/m2" ; float sw_direct_horiz_trop_flux_band(time, band_sw) ; sw_direct_horiz_trop_flux_band:long_name = "Shortwave direct horizontal flux at tropopause for each RRTM band" ; sw_direct_horiz_trop_flux_band:units = "W/m2" ; float sw_diffuse_trop_flux_band(time, band_sw) ; sw_diffuse_trop_flux_band:long_name = "Shortwave diffuse flux at tropopause for each RRTM band" ; sw_diffuse_trop_flux_band:units = "W/m2" ; float sw_dn_trop_flux_band(time, band_sw) ; sw_dn_trop_flux_band:long_name = "Shortwave downwelling flux at tropopause for each RRTM band" ; sw_dn_trop_flux_band:units = "W/m2" ; float sw_net_trop_flux_band(time, band_sw) ; sw_net_trop_flux_band:long_name = "Shortwave net downward flux at tropopause for each RRTM band" ; sw_net_trop_flux_band:units = "W/m2" ; float lw_up_surf_flux_band(time, band_lw) ; lw_up_surf_flux_band:long_name = "Longwave upwelling flux at surface for each RRTM band" ; lw_up_surf_flux_band:units = "W/m2" ; float lw_dn_surf_flux_band(time, band_lw) ; lw_dn_surf_flux_band:long_name = "Longwave downwelling flux at surface for each RRTM band" ; lw_dn_surf_flux_band:units = "W/m2" ; float lw_net_surf_flux_band(time, band_lw) ; lw_net_surf_flux_band:long_name = "Longwave net upward flux at surface for each RRTM band" ; lw_net_surf_flux_band:units = "W/m2" ; float lw_up_toa_flux_band(time, band_lw) ; lw_up_toa_flux_band:long_name = "Longwave upwelling flux at TOA for each RRTM band" ; lw_up_toa_flux_band:units = "W/m2" ; float lw_dn_toa_flux_band(time, band_lw) ; lw_dn_toa_flux_band:long_name = "Longwave downwelling flux at TOA for each RRTM band" ; lw_dn_toa_flux_band:units = "W/m2" ; float lw_net_toa_flux_band(time, band_lw) ; lw_net_toa_flux_band:long_name = "Longwave net upward flux at TOA for each RRTM band" ; lw_net_toa_flux_band:units = "W/m2" ; float lw_up_trop_flux_band(time, band_lw) ; lw_up_trop_flux_band:long_name = "Longwave upwelling flux at tropopause for each RRTM band" ; lw_up_trop_flux_band:units = "W/m2" ; float lw_dn_trop_flux_band(time, band_lw) ; lw_dn_trop_flux_band:long_name = "Longwave downwelling flux at tropopause for each RRTM band" ; lw_dn_trop_flux_band:units = "W/m2" ; float lw_net_trop_flux_band(time, band_lw) ; lw_net_trop_flux_band:long_name = "Longwave net upward flux at tropopause for each RRTM band" ; lw_net_trop_flux_band:units = "W/m2" ; float clear_sw_up_surf_flux_band(time, band_sw) ; clear_sw_up_surf_flux_band:long_name = "Shortwave upwelling flux at surface for each RRTM band, clear sky run" ; clear_sw_up_surf_flux_band:units = "W/m2" ; float clear_sw_direct_normal_surf_flux_band(time, band_sw) ; clear_sw_direct_normal_surf_flux_band:long_name = "Shortwave direct normal flux at surface for each RRTM band, clear sky run" ; clear_sw_direct_normal_surf_flux_band:units = "W/m2" ; float clear_sw_direct_horiz_surf_flux_band(time, band_sw) ; clear_sw_direct_horiz_surf_flux_band:long_name = "Shortwave direct horizontal flux at surface for each RRTM band, clear sky run" ; clear_sw_direct_horiz_surf_flux_band:units = "W/m2" ; float clear_sw_diffuse_surf_flux_band(time, band_sw) ; clear_sw_diffuse_surf_flux_band:long_name = "Shortwave diffuse flux at surface for each RRTM band, clear sky run" ; clear_sw_diffuse_surf_flux_band:units = "W/m2" ; float clear_sw_dn_surf_flux_band(time, band_sw) ; clear_sw_dn_surf_flux_band:long_name = "Shortwave total downwelling flux at surface for each RRTM band, clear sky run" ; clear_sw_dn_surf_flux_band:units = "W/m2" ; float clear_sw_net_surf_flux_band(time, band_sw) ; clear_sw_net_surf_flux_band:long_name = "Shortwave net downward flux at surface for each RRTM band, clear sky run" ; clear_sw_net_surf_flux_band:units = "W/m2" ; float clear_sw_up_toa_flux_band(time, band_sw) ; clear_sw_up_toa_flux_band:long_name = "Shortwave upwelling flux at TOA for each RRTM band, clear sky run" ; clear_sw_up_toa_flux_band:units = "W/m2" ; float clear_sw_dn_toa_flux_band(time, band_sw) ; clear_sw_dn_toa_flux_band:long_name = "Shortwave downwelling flux at TOA for each RRTM band, clear sky run" ; clear_sw_dn_toa_flux_band:units = "W/m2" ; float clear_sw_net_toa_flux_band(time, band_sw) ; clear_sw_net_toa_flux_band:long_name = "Shortwave net downward flux at TOA for each RRTM band, clear sky run" ; clear_sw_net_toa_flux_band:units = "W/m2" ; float clear_sw_up_trop_flux_band(time, band_sw) ; clear_sw_up_trop_flux_band:long_name = "Shortwave upwelling flux at tropopause for each RRTM band, clear sky run" ; clear_sw_up_trop_flux_band:units = "W/m2" ; float clear_sw_direct_horiz_trop_flux_band(time, band_sw) ; clear_sw_direct_horiz_trop_flux_band:long_name = "Shortwave direct horizontal flux at tropopause for each RRTM band, clear sky run" ; clear_sw_direct_horiz_trop_flux_band:units = "W/m2" ; float clear_sw_diffuse_trop_flux_band(time, band_sw) ; clear_sw_diffuse_trop_flux_band:long_name = "Shortwave diffuse flux at tropopause for each RRTM band, clear sky run" ; clear_sw_diffuse_trop_flux_band:units = "W/m2" ; float clear_sw_dn_trop_flux_band(time, band_sw) ; clear_sw_dn_trop_flux_band:long_name = "Shortwave downwelling flux at tropopause for each RRTM band, clear sky run" ; clear_sw_dn_trop_flux_band:units = "W/m2" ; float clear_sw_net_trop_flux_band(time, band_sw) ; clear_sw_net_trop_flux_band:long_name = "Shortwave net downward flux at tropopause for each RRTM band, clear sky run" ; clear_sw_net_trop_flux_band:units = "W/m2" ; float clear_lw_up_surf_flux_band(time, band_lw) ; clear_lw_up_surf_flux_band:long_name = "Longwave upwelling flux at surface for each RRTM band, clear sky run" ; clear_lw_up_surf_flux_band:units = "W/m2" ; float clear_lw_dn_surf_flux_band(time, band_lw) ; clear_lw_dn_surf_flux_band:long_name = "Longwave downwelling flux at surface for each RRTM band, clear sky run" ; clear_lw_dn_surf_flux_band:units = "W/m2" ; float clear_lw_net_surf_flux_band(time, band_lw) ; clear_lw_net_surf_flux_band:long_name = "Longwave net upward flux at surface for each RRTM band, clear sky run" ; clear_lw_net_surf_flux_band:units = "W/m2" ; float clear_lw_up_toa_flux_band(time, band_lw) ; clear_lw_up_toa_flux_band:long_name = "Longwave upwelling flux at TOA for each RRTM band, clear sky run" ; clear_lw_up_toa_flux_band:units = "W/m2" ; float clear_lw_dn_toa_flux_band(time, band_lw) ; clear_lw_dn_toa_flux_band:long_name = "Longwave downwelling flux at TOA for each RRTM band, clear sky run" ; clear_lw_dn_toa_flux_band:units = "W/m2" ; float clear_lw_net_toa_flux_band(time, band_lw) ; clear_lw_net_toa_flux_band:long_name = "Longwave net upward flux at TOA for each RRTM band, clear sky run" ; clear_lw_net_toa_flux_band:units = "W/m2" ; float clear_lw_up_trop_flux_band(time, band_lw) ; clear_lw_up_trop_flux_band:long_name = "Longwave upwelling flux at tropopause for each RRTM band, clear sky run" ; clear_lw_up_trop_flux_band:units = "W/m2" ; float clear_lw_dn_trop_flux_band(time, band_lw) ; clear_lw_dn_trop_flux_band:long_name = "Longwave downwelling flux at tropopause for each RRTM band, clear sky run" ; clear_lw_dn_trop_flux_band:units = "W/m2" ; float clear_lw_net_trop_flux_band(time, band_lw) ; clear_lw_net_trop_flux_band:long_name = "Longwave net upward flux at tropopause for each RRTM band, clear sky run" ; clear_lw_net_trop_flux_band:units = "W/m2" ; float lat ; lat:long_name = "north latitude" ; lat:units = "degrees" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; float lon ; lon:long_name = "east longitude" ; lon:units = "degrees" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; float alt ; alt:long_name = "altitude" ; alt:units = "meters above Mean Sea Level" ; // global attributes: :Date = "Thu Jun 4 15:33:46 2009" ; :Version = "$State: Exp $" ; :Command_Line = "/home/shippert/dev/vap/bin/bbhrp_ingest_sgp -a -i /home/shippert/dev/vap/src/bbhrp/test/reingest/reingest_list_pi_ver1.5.20060227.000000.18626" ; :BW_Version = "$State: ds-dsutil-bw-4.6-0 $" ; :Title = "Broadband Heating Rate Profile P_I measurements and calculations" ; :BBHRP_Version = "pi_ver1.5" ; :zeb_platform = "sgpbbhrp1mlawer1C1.c1" ; :history = "created by user shippert on machine onyx at 4-Jun-2009,15:58:12, using $State: ds-zebra-zeblib-4.16-0 $" ; }