netcdf CCTM_PHOTDIAG1_2019-01-BASE_20190117 { dimensions: TSTEP = UNLIMITED ; // (24 currently) DATE-TIME = 2 ; LAY = 1 ; VAR = 59 ; ROW = 182 ; COL = 232 ; variables: int TFLAG(TSTEP, VAR, DATE-TIME) ; TFLAG:units = "" ; TFLAG:long_name = "TFLAG " ; TFLAG:var_desc = "Timestep-valid flags: (1) YYYYDDD or (2) HHMMSS " ; float COSZENS(TSTEP, LAY, ROW, COL) ; COSZENS:long_name = "COSZENS " ; COSZENS:units = "NONE " ; COSZENS:var_desc = "Cosine of Solar Zenith Angle " ; float OZONE_COLUMN(TSTEP, LAY, ROW, COL) ; OZONE_COLUMN:long_name = "OZONE_COLUMN " ; OZONE_COLUMN:units = "DU " ; OZONE_COLUMN:var_desc = "Total Ozone Column Density " ; float TROPO_O3_COLUMN(TSTEP, LAY, ROW, COL) ; TROPO_O3_COLUMN:long_name = "TROPO_O3_COLUMN " ; TROPO_O3_COLUMN:units = "DU " ; TROPO_O3_COLUMN:var_desc = "Tropospheric Ozone Column Density " ; float JNO2(TSTEP, LAY, ROW, COL) ; JNO2:long_name = "JNO2 " ; JNO2:units = "1/min " ; JNO2:var_desc = "J-value for NO2 " ; float JO3O1D(TSTEP, LAY, ROW, COL) ; JO3O1D:long_name = "JO3O1D " ; JO3O1D:units = "1/min " ; JO3O1D:var_desc = "J-value for O3O1D " ; float RESOLVED_CFRAC(TSTEP, LAY, ROW, COL) ; RESOLVED_CFRAC:long_name = "RESOLVED_CFRAC " ; RESOLVED_CFRAC:units = "NONE " ; RESOLVED_CFRAC:var_desc = "Resolved Cloud Fraction averaged over cloudy layers " ; float RESOLVED_WBAR(TSTEP, LAY, ROW, COL) ; RESOLVED_WBAR:long_name = "RESOLVED_WBAR " ; RESOLVED_WBAR:units = "G/M**3 " ; RESOLVED_WBAR:var_desc = "Resolved Cloud Hydrometeor Content averaged over cloudy layers " ; float SUBGRID_CFRAC(TSTEP, LAY, ROW, COL) ; SUBGRID_CFRAC:long_name = "SUBGRID_CFRAC " ; SUBGRID_CFRAC:units = "NONE " ; SUBGRID_CFRAC:var_desc = "Subgrid Cloud Fraction averaged over cloudy layers " ; float SUBGRID_WBAR(TSTEP, LAY, ROW, COL) ; SUBGRID_WBAR:long_name = "SUBGRID_WBAR " ; SUBGRID_WBAR:units = "G/M**3 " ; SUBGRID_WBAR:var_desc = "Subgrid Cloud Hydrometeor Content averaged over cloudy layers " ; float TRANS_DIFFUSE(TSTEP, LAY, ROW, COL) ; TRANS_DIFFUSE:long_name = "TRANS_DIFFUSE " ; TRANS_DIFFUSE:units = "NONE " ; TRANS_DIFFUSE:var_desc = "broad band transmission coefficient for diffuse radiation at surface " ; float TRANS_DIRECT(TSTEP, LAY, ROW, COL) ; TRANS_DIRECT:long_name = "TRANS_DIRECT " ; TRANS_DIRECT:units = "NONE " ; TRANS_DIRECT:var_desc = "broad band transmission coefficient for direct radiation at surface " ; float REFLECTION(TSTEP, LAY, ROW, COL) ; REFLECTION:long_name = "REFLECTION " ; REFLECTION:units = "NONE " ; REFLECTION:var_desc = "broad band reflection coefficient at top of atmosphere " ; float CLR_TRANS_DIF(TSTEP, LAY, ROW, COL) ; CLR_TRANS_DIF:long_name = "CLR_TRANS_DIF " ; CLR_TRANS_DIF:units = "NONE " ; CLR_TRANS_DIF:var_desc = "broad band diffuse transmission for clear sky at surface " ; float CLR_TRANS_DIR(TSTEP, LAY, ROW, COL) ; CLR_TRANS_DIR:long_name = "CLR_TRANS_DIR " ; CLR_TRANS_DIR:units = "NONE " ; CLR_TRANS_DIR:var_desc = "broad band direct transmission for clear sky at surface " ; float CLR_REFLECTION(TSTEP, LAY, ROW, COL) ; CLR_REFLECTION:long_name = "CLR_REFLECTION " ; CLR_REFLECTION:units = "NONE " ; CLR_REFLECTION:var_desc = "broad band reflection for clear sky at top of atmosphere " ; float TROPO_O3_EXCEED(TSTEP, LAY, ROW, COL) ; TROPO_O3_EXCEED:long_name = "TROPO_O3_EXCEED " ; TROPO_O3_EXCEED:units = "Rel. Fraction " ; TROPO_O3_EXCEED:var_desc = "Average Exceedance of modeled ozone column from max fraction of Total Column " ; float N_EXCEED_TROPO3(TSTEP, LAY, ROW, COL) ; N_EXCEED_TROPO3:long_name = "N_EXCEED_TROPO3 " ; N_EXCEED_TROPO3:units = "per TSTEP " ; N_EXCEED_TROPO3:var_desc = "Number of exceedances to tropospheric ozone column " ; float ETOT_SFC_W294(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W294:long_name = "ETOT_SFC_W294 " ; ETOT_SFC_W294:units = "Watts/m**2 " ; ETOT_SFC_W294:var_desc = "Total Downward Irradiance at sfc, 294 nm " ; float TAU_AERO_W294(TSTEP, LAY, ROW, COL) ; TAU_AERO_W294:long_name = "TAU_AERO_W294 " ; TAU_AERO_W294:units = "NONE " ; TAU_AERO_W294:var_desc = "Aerosol Optical Depth, 294 nm " ; float TAU_CLOUD_W294(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W294:long_name = "TAU_CLOUD_W294 " ; TAU_CLOUD_W294:units = "NONE " ; TAU_CLOUD_W294:var_desc = "Cloud Optical Depth, 294 nm " ; float TAU_TOT_W294(TSTEP, LAY, ROW, COL) ; TAU_TOT_W294:long_name = "TAU_TOT_W294 " ; TAU_TOT_W294:units = "NONE " ; TAU_TOT_W294:var_desc = "Total Optical Depth, 294 nm " ; float TAUO3_TOP_W294(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W294:long_name = "TAUO3_TOP_W294 " ; TAUO3_TOP_W294:units = "NONE " ; TAUO3_TOP_W294:var_desc = "Optical Depth of O3 above model domain, 294 nm " ; float ALBEDO_W294(TSTEP, LAY, ROW, COL) ; ALBEDO_W294:long_name = "ALBEDO_W294 " ; ALBEDO_W294:units = "NONE " ; ALBEDO_W294:var_desc = "Surface Albedo at the wavelength 294 nm " ; float ETOT_SFC_W303(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W303:long_name = "ETOT_SFC_W303 " ; ETOT_SFC_W303:units = "Watts/m**2 " ; ETOT_SFC_W303:var_desc = "Total Downward Irradiance at sfc, 303 nm " ; float TAU_AERO_W303(TSTEP, LAY, ROW, COL) ; TAU_AERO_W303:long_name = "TAU_AERO_W303 " ; TAU_AERO_W303:units = "NONE " ; TAU_AERO_W303:var_desc = "Aerosol Optical Depth, 303 nm " ; float TAU_CLOUD_W303(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W303:long_name = "TAU_CLOUD_W303 " ; TAU_CLOUD_W303:units = "NONE " ; TAU_CLOUD_W303:var_desc = "Cloud Optical Depth, 303 nm " ; float TAU_TOT_W303(TSTEP, LAY, ROW, COL) ; TAU_TOT_W303:long_name = "TAU_TOT_W303 " ; TAU_TOT_W303:units = "NONE " ; TAU_TOT_W303:var_desc = "Total Optical Depth, 303 nm " ; float TAUO3_TOP_W303(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W303:long_name = "TAUO3_TOP_W303 " ; TAUO3_TOP_W303:units = "NONE " ; TAUO3_TOP_W303:var_desc = "Optical Depth of O3 above model domain, 303 nm " ; float ALBEDO_W303(TSTEP, LAY, ROW, COL) ; ALBEDO_W303:long_name = "ALBEDO_W303 " ; ALBEDO_W303:units = "NONE " ; ALBEDO_W303:var_desc = "Surface Albedo at the wavelength 303 nm " ; float ETOT_SFC_W310(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W310:long_name = "ETOT_SFC_W310 " ; ETOT_SFC_W310:units = "Watts/m**2 " ; ETOT_SFC_W310:var_desc = "Total Downward Irradiance at sfc, 310 nm " ; float TAU_AERO_W310(TSTEP, LAY, ROW, COL) ; TAU_AERO_W310:long_name = "TAU_AERO_W310 " ; TAU_AERO_W310:units = "NONE " ; TAU_AERO_W310:var_desc = "Aerosol Optical Depth, 310 nm " ; float TAU_CLOUD_W310(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W310:long_name = "TAU_CLOUD_W310 " ; TAU_CLOUD_W310:units = "NONE " ; TAU_CLOUD_W310:var_desc = "Cloud Optical Depth, 310 nm " ; float TAU_TOT_W310(TSTEP, LAY, ROW, COL) ; TAU_TOT_W310:long_name = "TAU_TOT_W310 " ; TAU_TOT_W310:units = "NONE " ; TAU_TOT_W310:var_desc = "Total Optical Depth, 310 nm " ; float TAUO3_TOP_W310(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W310:long_name = "TAUO3_TOP_W310 " ; TAUO3_TOP_W310:units = "NONE " ; TAUO3_TOP_W310:var_desc = "Optical Depth of O3 above model domain, 310 nm " ; float ALBEDO_W310(TSTEP, LAY, ROW, COL) ; ALBEDO_W310:long_name = "ALBEDO_W310 " ; ALBEDO_W310:units = "NONE " ; ALBEDO_W310:var_desc = "Surface Albedo at the wavelength 310 nm " ; float ETOT_SFC_W316(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W316:long_name = "ETOT_SFC_W316 " ; ETOT_SFC_W316:units = "Watts/m**2 " ; ETOT_SFC_W316:var_desc = "Total Downward Irradiance at sfc, 316 nm " ; float TAU_AERO_W316(TSTEP, LAY, ROW, COL) ; TAU_AERO_W316:long_name = "TAU_AERO_W316 " ; TAU_AERO_W316:units = "NONE " ; TAU_AERO_W316:var_desc = "Aerosol Optical Depth, 316 nm " ; float TAU_CLOUD_W316(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W316:long_name = "TAU_CLOUD_W316 " ; TAU_CLOUD_W316:units = "NONE " ; TAU_CLOUD_W316:var_desc = "Cloud Optical Depth, 316 nm " ; float TAU_TOT_W316(TSTEP, LAY, ROW, COL) ; TAU_TOT_W316:long_name = "TAU_TOT_W316 " ; TAU_TOT_W316:units = "NONE " ; TAU_TOT_W316:var_desc = "Total Optical Depth, 316 nm " ; float TAUO3_TOP_W316(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W316:long_name = "TAUO3_TOP_W316 " ; TAUO3_TOP_W316:units = "NONE " ; TAUO3_TOP_W316:var_desc = "Optical Depth of O3 above model domain, 316 nm " ; float ALBEDO_W316(TSTEP, LAY, ROW, COL) ; ALBEDO_W316:long_name = "ALBEDO_W316 " ; ALBEDO_W316:units = "NONE " ; ALBEDO_W316:var_desc = "Surface Albedo at the wavelength 316 nm " ; float ETOT_SFC_W333(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W333:long_name = "ETOT_SFC_W333 " ; ETOT_SFC_W333:units = "Watts/m**2 " ; ETOT_SFC_W333:var_desc = "Total Downward Irradiance at sfc, 333 nm " ; float TAU_AERO_W333(TSTEP, LAY, ROW, COL) ; TAU_AERO_W333:long_name = "TAU_AERO_W333 " ; TAU_AERO_W333:units = "NONE " ; TAU_AERO_W333:var_desc = "Aerosol Optical Depth, 333 nm " ; float TAU_CLOUD_W333(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W333:long_name = "TAU_CLOUD_W333 " ; TAU_CLOUD_W333:units = "NONE " ; TAU_CLOUD_W333:var_desc = "Cloud Optical Depth, 333 nm " ; float TAU_TOT_W333(TSTEP, LAY, ROW, COL) ; TAU_TOT_W333:long_name = "TAU_TOT_W333 " ; TAU_TOT_W333:units = "NONE " ; TAU_TOT_W333:var_desc = "Total Optical Depth, 333 nm " ; float TAUO3_TOP_W333(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W333:long_name = "TAUO3_TOP_W333 " ; TAUO3_TOP_W333:units = "NONE " ; TAUO3_TOP_W333:var_desc = "Optical Depth of O3 above model domain, 333 nm " ; float ALBEDO_W333(TSTEP, LAY, ROW, COL) ; ALBEDO_W333:long_name = "ALBEDO_W333 " ; ALBEDO_W333:units = "NONE " ; ALBEDO_W333:var_desc = "Surface Albedo at the wavelength 333 nm " ; float ETOT_SFC_W381(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W381:long_name = "ETOT_SFC_W381 " ; ETOT_SFC_W381:units = "Watts/m**2 " ; ETOT_SFC_W381:var_desc = "Total Downward Irradiance at sfc, 381 nm " ; float TAU_AERO_W381(TSTEP, LAY, ROW, COL) ; TAU_AERO_W381:long_name = "TAU_AERO_W381 " ; TAU_AERO_W381:units = "NONE " ; TAU_AERO_W381:var_desc = "Aerosol Optical Depth, 381 nm " ; float TAU_CLOUD_W381(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W381:long_name = "TAU_CLOUD_W381 " ; TAU_CLOUD_W381:units = "NONE " ; TAU_CLOUD_W381:var_desc = "Cloud Optical Depth, 381 nm " ; float TAU_TOT_W381(TSTEP, LAY, ROW, COL) ; TAU_TOT_W381:long_name = "TAU_TOT_W381 " ; TAU_TOT_W381:units = "NONE " ; TAU_TOT_W381:var_desc = "Total Optical Depth, 381 nm " ; float TAUO3_TOP_W381(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W381:long_name = "TAUO3_TOP_W381 " ; TAUO3_TOP_W381:units = "NONE " ; TAUO3_TOP_W381:var_desc = "Optical Depth of O3 above model domain, 381 nm " ; float ALBEDO_W381(TSTEP, LAY, ROW, COL) ; ALBEDO_W381:long_name = "ALBEDO_W381 " ; ALBEDO_W381:units = "NONE " ; ALBEDO_W381:var_desc = "Surface Albedo at the wavelength 381 nm " ; float ETOT_SFC_W607(TSTEP, LAY, ROW, COL) ; ETOT_SFC_W607:long_name = "ETOT_SFC_W607 " ; ETOT_SFC_W607:units = "Watts/m**2 " ; ETOT_SFC_W607:var_desc = "Total Downward Irradiance at sfc, 607 nm " ; float TAU_AERO_W607(TSTEP, LAY, ROW, COL) ; TAU_AERO_W607:long_name = "TAU_AERO_W607 " ; TAU_AERO_W607:units = "NONE " ; TAU_AERO_W607:var_desc = "Aerosol Optical Depth, 607 nm " ; float TAU_CLOUD_W607(TSTEP, LAY, ROW, COL) ; TAU_CLOUD_W607:long_name = "TAU_CLOUD_W607 " ; TAU_CLOUD_W607:units = "NONE " ; TAU_CLOUD_W607:var_desc = "Cloud Optical Depth, 607 nm " ; float TAU_TOT_W607(TSTEP, LAY, ROW, COL) ; TAU_TOT_W607:long_name = "TAU_TOT_W607 " ; TAU_TOT_W607:units = "NONE " ; TAU_TOT_W607:var_desc = "Total Optical Depth, 607 nm " ; float TAUO3_TOP_W607(TSTEP, LAY, ROW, COL) ; TAUO3_TOP_W607:long_name = "TAUO3_TOP_W607 " ; TAUO3_TOP_W607:units = "NONE " ; TAUO3_TOP_W607:var_desc = "Optical Depth of O3 above model domain, 607 nm " ; float ALBEDO_W607(TSTEP, LAY, ROW, COL) ; ALBEDO_W607:long_name = "ALBEDO_W607 " ; ALBEDO_W607:units = "NONE " ; ALBEDO_W607:var_desc = "Surface Albedo at the wavelength 607 nm " ; // global attributes: :IOAPI_VERSION = "$Id: @(#) ioapi library version 3.1 OpenMP enabled $ " ; :EXEC_ID = "CCTM_v521.exe " ; :FTYPE = 1 ; :CDATE = 2020161 ; :CTIME = 24733 ; :WDATE = 2020161 ; :WTIME = 24733 ; :SDATE = 2019017 ; :STIME = 10000 ; :TSTEP = 10000 ; :NTHIK = 1 ; :NCOLS = 232 ; :NROWS = 182 ; :NLAYS = 1 ; :NVARS = 59 ; :GDTYP = 2 ; :P_ALP = 25. ; :P_BET = 40. ; :P_GAM = 110. ; :XCENT = 110. ; :YCENT = 34. ; :XORIG = -3132000. ; :YORIG = -2457000. ; :XCELL = 27000. ; :YCELL = 27000. ; :VGTYP = 7 ; :VGTOP = 10000.f ; :VGLVLS = 1.f, 0.993f ; :GDNAM = "M_27_08CHINA " ; :UPNAM = "OPPHOT " ; :VAR-LIST = "COSZENS OZONE_COLUMN TROPO_O3_COLUMN JNO2 JO3O1D RESOLVED_CFRAC RESOLVED_WBAR SUBGRID_CFRAC SUBGRID_WBAR TRANS_DIFFUSE TRANS_DIRECT REFLECTION CLR_TRANS_DIF CLR_TRANS_DIR CLR_REFLECTION TROPO_O3_EXCEED N_EXCEED_TROPO3 ETOT_SFC_W294 TAU_AERO_W294 TAU_CLOUD_W294 TAU_TOT_W294 TAUO3_TOP_W294 ALBEDO_W294 ETOT_SFC_W303 TAU_AERO_W303 TAU_CLOUD_W303 TAU_TOT_W303 TAUO3_TOP_W303 ALBEDO_W303 ETOT_SFC_W310 TAU_AERO_W310 TAU_CLOUD_W310 TAU_TOT_W310 TAUO3_TOP_W310 ALBEDO_W310 ETOT_SFC_W316 TAU_AERO_W316 TAU_CLOUD_W316 TAU_TOT_W316 TAUO3_TOP_W316 ALBEDO_W316 ETOT_SFC_W333 TAU_AERO_W333 TAU_CLOUD_W333 TAU_TOT_W333 TAUO3_TOP_W333 ALBEDO_W333 ETOT_SFC_W381 TAU_AERO_W381 TAU_CLOUD_W381 TAU_TOT_W381 TAUO3_TOP_W381 ALBEDO_W381 ETOT_SFC_W607 TAU_AERO_W607 TAU_CLOUD_W607 TAU_TOT_W607 TAUO3_TOP_W607 ALBEDO_W607 " ; :FILEDESC = "Photolysis reactions diagnostics " ; :HISTORY = "" ; }