netcdf grwnoaaaosM1.b1.20101231.000000 { dimensions: time = UNLIMITED ; // (728 currently) flag_length = 4 ; variables: int base_time ; base_time:string = "31-Dec-2010,0:00:00 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 2010-12-31 00:00:00 0:00" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2010-12-31 00:00:00 0:00" ; int qc_time(time) ; qc_time:long_name = "Quality check results on field: Time offset from midnight" ; qc_time:units = "unitless" ; qc_time:description = "This field contains bit packed values which should be interpreted as listed. No bits set (zero) represents good data." ; qc_time:bit_1_description = "Delta time between current and previous samples is zero." ; qc_time:bit_1_assessment = "Indeterminate" ; qc_time:bit_2_description = "Delta time between current and previous samples is less than the delta_t_lower_limit field attribute." ; qc_time:bit_2_assessment = "Indeterminate" ; qc_time:bit_3_description = "Delta time between current and previous samples is greater than the delta_t_upper_limit field attribute." ; qc_time:bit_3_assessment = "Indeterminate" ; qc_time:delta_t_lower_limit = "delta_t_lower_limit" ; qc_time:delta_t_upper_limit = "delta_t_upper_limit" ; qc_time:prior_sample_flag = 1 ; qc_time:comment = "If the \'prior_sample_flag\' is set the first sample time from a new raw file will be compared against the time just previous to it in the stored data. If it is not set the qc_time value for the first sample will be set to 0." ; char flags_CMDL(time, flag_length) ; flags_CMDL:long_name = "AOS system status" ; flags_CMDL:units = "unitless" ; flags_CMDL:missing_value = "-9999" ; flags_CMDL:description = "4 character string of hexadecimal values" ; flags_CMDL:bit_meanings = "Each of the conditions below are true when the corresponding bit is 1" ; flags_CMDL:bit_0x8000 = "Unused (bit always 0)" ; flags_CMDL:bit_0x4000 = "Unused (bit always 0)" ; flags_CMDL:bit_0x2000 = "Unused (bit always 0)" ; flags_CMDL:bit_0x1000 = "Unused (bit always 0)" ; flags_CMDL:bit_0x0800 = "Unused (bit always 0)" ; flags_CMDL:bit_0x0400 = "Nephelometer truncations applied" ; flags_CMDL:bit_0x0200 = "PSAP spot size and calibration corrections applied" ; flags_CMDL:bit_0x0100 = "STP corrections applied" ; flags_CMDL:bit_0x0080 = "Unused (bit always 0)" ; flags_CMDL:bit_0x0040 = "Unused (bit always 0)" ; flags_CMDL:bit_0x0020 = "PSAP filter loading transmittance < 0.7 (Bap data less reliable)" ; flags_CMDL:bit_0x0010 = "Particle size 0 to 1 um (Bit not set indicates 0-10 um size cut-off)" ; flags_CMDL:bit_0x0008 = "Unused (bit always 0)" ; flags_CMDL:bit_0x0004 = "Wind speed or direction indicate local pollution is likely" ; flags_CMDL:bit_0x0002 = "Manual contamination check indicates local pollution is present" ; flags_CMDL:bit_0x0001 = "Automatic contamination controller indicates local pollution is present" ; float N_CPC_1(time) ; N_CPC_1:long_name = "Condensation nuclei concentration number" ; N_CPC_1:units = "1/cm^3" ; N_CPC_1:missing_data = -9999.f ; N_CPC_1:instrument = "TSI model 3010 Condensation Particle Counter" ; float N_CCN_1(time) ; N_CCN_1:long_name = "Cloud droplet concentration number from summation of condensation nuclei counter size bins" ; N_CCN_1:units = "1/cm^3" ; N_CCN_1:missing_data = -9999.f ; N_CCN_1:instrument = "DMT CCN: Condensation Nuclei Counter" ; float Ba_G_Dry_10um_PSAP1W_1(time) ; Ba_G_Dry_10um_PSAP1W_1:long_name = "Aerosol light absorption coefficient, green channel, 10 um particle diameter" ; Ba_G_Dry_10um_PSAP1W_1:units = "1/Mm" ; Ba_G_Dry_10um_PSAP1W_1:missing_data = -9999.f ; float Bs_B_Dry_10um_Neph3W_1(time) ; Bs_B_Dry_10um_Neph3W_1:long_name = "Aerosol total light scattering coefficient, reference nephelometer blue channel, 10 um particle diameter" ; Bs_B_Dry_10um_Neph3W_1:units = "1/Mm" ; Bs_B_Dry_10um_Neph3W_1:missing_data = -9999.f ; float Bs_G_Dry_10um_Neph3W_1(time) ; Bs_G_Dry_10um_Neph3W_1:long_name = "Aerosol total light scattering coefficient, reference nephelometer green channel, 10 um particle diameter" ; Bs_G_Dry_10um_Neph3W_1:units = "1/Mm" ; Bs_G_Dry_10um_Neph3W_1:missing_data = -9999.f ; float Bs_R_Dry_10um_Neph3W_1(time) ; Bs_R_Dry_10um_Neph3W_1:long_name = "Aerosol total light scattering coefficient, reference nephelometer red channel, 10 um particle diameter" ; Bs_R_Dry_10um_Neph3W_1:units = "1/Mm" ; Bs_R_Dry_10um_Neph3W_1:missing_data = -9999.f ; float Bbs_B_Dry_10um_Neph3W_1(time) ; Bbs_B_Dry_10um_Neph3W_1:long_name = "Aerosol backwards-hemispheric light scattering coefficient, reference nephelometer blue channel, 10 um particle diameter" ; Bbs_B_Dry_10um_Neph3W_1:units = "1/Mm" ; Bbs_B_Dry_10um_Neph3W_1:missing_data = -9999.f ; float Bbs_G_Dry_10um_Neph3W_1(time) ; Bbs_G_Dry_10um_Neph3W_1:long_name = "Aerosol backwards-hemispheric light scattering coefficient, reference nephelometer green channel, 10 um particle diameter" ; Bbs_G_Dry_10um_Neph3W_1:units = "1/Mm" ; Bbs_G_Dry_10um_Neph3W_1:missing_data = -9999.f ; float Bbs_R_Dry_10um_Neph3W_1(time) ; Bbs_R_Dry_10um_Neph3W_1:long_name = "Aerosol backwards-hemispheric light scattering coefficient, reference nephelometer red channel, 10 um particle diameter" ; Bbs_R_Dry_10um_Neph3W_1:units = "1/Mm" ; Bbs_R_Dry_10um_Neph3W_1:missing_data = -9999.f ; float Bs_B_Wet_10um_Neph3W_2(time) ; Bs_B_Wet_10um_Neph3W_2:long_name = "Aerosol total light scattering coefficient, humidograph nephelometer blue channel, 10 um particle diameter" ; Bs_B_Wet_10um_Neph3W_2:units = "1/Mm" ; Bs_B_Wet_10um_Neph3W_2:missing_data = -9999.f ; float Bs_G_Wet_10um_Neph3W_2(time) ; Bs_G_Wet_10um_Neph3W_2:long_name = "Aerosol total light scattering coefficient, humidograph nephelometer green channel, 10 um particle diameter" ; Bs_G_Wet_10um_Neph3W_2:units = "1/Mm" ; Bs_G_Wet_10um_Neph3W_2:missing_data = -9999.f ; float Bs_R_Wet_10um_Neph3W_2(time) ; Bs_R_Wet_10um_Neph3W_2:long_name = "Aerosol total light scattering coefficient, humidograph nephelometer red channel, 10 um particle diameter" ; Bs_R_Wet_10um_Neph3W_2:units = "1/Mm" ; Bs_R_Wet_10um_Neph3W_2:missing_data = -9999.f ; float Bbs_B_Wet_10um_Neph3W_2(time) ; Bbs_B_Wet_10um_Neph3W_2:long_name = "Aerosol backwards-hemispheric light scattering coefficient, humidograph nephelometer blue channel, 10 um particle diameter" ; Bbs_B_Wet_10um_Neph3W_2:units = "1/Mm" ; Bbs_B_Wet_10um_Neph3W_2:missing_data = -9999.f ; float Bbs_G_Wet_10um_Neph3W_2(time) ; Bbs_G_Wet_10um_Neph3W_2:long_name = "Aerosol backwards-hemispheric light scattering coefficient, humidograph nephelometer green channel, 10 um particle diameter" ; Bbs_G_Wet_10um_Neph3W_2:units = "1/Mm" ; Bbs_G_Wet_10um_Neph3W_2:missing_data = -9999.f ; float Bbs_R_Wet_10um_Neph3W_2(time) ; Bbs_R_Wet_10um_Neph3W_2:long_name = "Aerosol backwards-hemispheric light scattering coefficient, humidograph nephelometer red channel, 10 um particle diameter" ; Bbs_R_Wet_10um_Neph3W_2:units = "1/Mm" ; Bbs_R_Wet_10um_Neph3W_2:missing_data = -9999.f ; float Ba_G_Dry_1um_PSAP1W_1(time) ; Ba_G_Dry_1um_PSAP1W_1:long_name = "Aerosol light absorption coefficient, green channel, 1 um particle diameter" ; Ba_G_Dry_1um_PSAP1W_1:units = "1/Mm" ; Ba_G_Dry_1um_PSAP1W_1:missing_data = -9999.f ; float Bs_B_Dry_1um_Neph3W_1(time) ; Bs_B_Dry_1um_Neph3W_1:long_name = "Aerosol total light scattering coefficient, ref. humidograph nephelometer blue channel, 1 um particle diameter" ; Bs_B_Dry_1um_Neph3W_1:units = "1/Mm" ; Bs_B_Dry_1um_Neph3W_1:missing_data = -9999.f ; float Bs_G_Dry_1um_Neph3W_1(time) ; Bs_G_Dry_1um_Neph3W_1:long_name = "Aerosol total light scattering coefficient, ref. humidograph nephelometer green channel, 1 um particle diameter" ; Bs_G_Dry_1um_Neph3W_1:units = "1/Mm" ; Bs_G_Dry_1um_Neph3W_1:missing_data = -9999.f ; float Bs_R_Dry_1um_Neph3W_1(time) ; Bs_R_Dry_1um_Neph3W_1:long_name = "Aerosol total light scattering coefficient, ref. humidograph nephelometer red channel, 1 um particle diameter" ; Bs_R_Dry_1um_Neph3W_1:units = "1/Mm" ; Bs_R_Dry_1um_Neph3W_1:missing_data = -9999.f ; float Bbs_B_Dry_1um_Neph3W_1(time) ; Bbs_B_Dry_1um_Neph3W_1:long_name = "Aerosol backwards-hemispheric light scattering coefficient, ref. humidograph nephelometer blue channel, 1 um particle diameter" ; Bbs_B_Dry_1um_Neph3W_1:units = "1/Mm" ; Bbs_B_Dry_1um_Neph3W_1:missing_data = -9999.f ; float Bbs_G_Dry_1um_Neph3W_1(time) ; Bbs_G_Dry_1um_Neph3W_1:long_name = "Aerosol backwards-hemispheric light scattering coefficient, ref. humidograph nephelometer green channel, 1 um particle diameter" ; Bbs_G_Dry_1um_Neph3W_1:units = "1/Mm" ; Bbs_G_Dry_1um_Neph3W_1:missing_data = -9999.f ; float Bbs_R_Dry_1um_Neph3W_1(time) ; Bbs_R_Dry_1um_Neph3W_1:long_name = "Aerosol backwards-hemispheric light scattering coefficient, ref. humidograph nephelometer red channel, 1 um particle diameter" ; Bbs_R_Dry_1um_Neph3W_1:units = "1/Mm" ; Bbs_R_Dry_1um_Neph3W_1:missing_data = -9999.f ; float Bs_B_Wet_1um_Neph3W_2(time) ; Bs_B_Wet_1um_Neph3W_2:long_name = "Aerosol total light scattering coefficient, humidograph nephelometer blue channel, 1 um particle diameter" ; Bs_B_Wet_1um_Neph3W_2:units = "1/Mm" ; Bs_B_Wet_1um_Neph3W_2:missing_data = -9999.f ; float Bs_G_Wet_1um_Neph3W_2(time) ; Bs_G_Wet_1um_Neph3W_2:long_name = "Aerosol total light scattering coefficient, humidograph nephelometer green channel, 1 um particle diameter" ; Bs_G_Wet_1um_Neph3W_2:units = "1/Mm" ; Bs_G_Wet_1um_Neph3W_2:missing_data = -9999.f ; float Bs_R_Wet_1um_Neph3W_2(time) ; Bs_R_Wet_1um_Neph3W_2:long_name = "Aerosol total light scattering coefficient, humidograph nephelometer red channel, 1 um particle diameter" ; Bs_R_Wet_1um_Neph3W_2:units = "1/Mm" ; Bs_R_Wet_1um_Neph3W_2:missing_data = -9999.f ; float Bbs_B_Wet_1um_Neph3W_2(time) ; Bbs_B_Wet_1um_Neph3W_2:long_name = "Aerosol backwards-hemispheric light scattering coefficient, humidograph nephelometer blue channel, 1 um particle diameter" ; Bbs_B_Wet_1um_Neph3W_2:units = "1/Mm" ; Bbs_B_Wet_1um_Neph3W_2:missing_data = -9999.f ; float Bbs_G_Wet_1um_Neph3W_2(time) ; Bbs_G_Wet_1um_Neph3W_2:long_name = "Aerosol backwards-hemispheric light scattering coefficient, humidograph nephelometer green channel, 1 um particle diameter" ; Bbs_G_Wet_1um_Neph3W_2:units = "1/Mm" ; Bbs_G_Wet_1um_Neph3W_2:missing_data = -9999.f ; float Bbs_R_Wet_1um_Neph3W_2(time) ; Bbs_R_Wet_1um_Neph3W_2:long_name = "Aerosol backwards-hemispheric light scattering coefficient, humidograph nephelometer red channel, 1 um particle diameter" ; Bbs_R_Wet_1um_Neph3W_2:units = "1/Mm" ; Bbs_R_Wet_1um_Neph3W_2:missing_data = -9999.f ; float RH_MainInlet(time) ; RH_MainInlet:long_name = "Relative humidity at inlet" ; RH_MainInlet:units = "%" ; RH_MainInlet:missing_data = -9999.f ; float T_MainInlet(time) ; T_MainInlet:long_name = "Temperature at inlet" ; T_MainInlet:units = "C" ; T_MainInlet:missing_data = -9999.f ; float RH_NephInlet_Dry(time) ; RH_NephInlet_Dry:long_name = "Relative humidity at reference nephelometer inlet" ; RH_NephInlet_Dry:units = "%" ; RH_NephInlet_Dry:missing_data = -9999.f ; float T_NephInlet_Dry(time) ; T_NephInlet_Dry:long_name = "Temperature at reference nephelometer inlet" ; T_NephInlet_Dry:units = "C" ; T_NephInlet_Dry:missing_data = -9999.f ; float RH_NephVol_Dry(time) ; RH_NephVol_Dry:long_name = "Relative humidity inside reference nephelometer" ; RH_NephVol_Dry:units = "%" ; RH_NephVol_Dry:missing_data = -9999.f ; float T_NephVol_Dry(time) ; T_NephVol_Dry:long_name = "Temperature inside reference nephelometer" ; T_NephVol_Dry:units = "C" ; T_NephVol_Dry:missing_data = -9999.f ; float RH_preHG(time) ; RH_preHG:long_name = "Relative humidity of humidograph preheater" ; RH_preHG:units = "%" ; RH_preHG:missing_data = -9999.f ; float T_preHG(time) ; T_preHG:long_name = "Temperature of humidograph preheater" ; T_preHG:units = "C" ; T_preHG:missing_data = -9999.f ; float RH_postHG(time) ; RH_postHG:long_name = "Relative humidity of humidograph controller" ; RH_postHG:units = "%" ; RH_postHG:missing_data = -9999.f ; float T_postHG(time) ; T_postHG:long_name = "Temperature of humidograph controller" ; T_postHG:units = "C" ; T_postHG:missing_data = -9999.f ; float RH_NephInlet_Wet(time) ; RH_NephInlet_Wet:long_name = "Relative humidity inside at wet nephelometer inlet" ; RH_NephInlet_Wet:units = "%" ; RH_NephInlet_Wet:missing_data = -9999.f ; float T_NephInlet_Wet(time) ; T_NephInlet_Wet:long_name = "Temperature at wet nephelometer inlet" ; T_NephInlet_Wet:units = "C" ; T_NephInlet_Wet:missing_data = -9999.f ; float RH_NephVol_Wet(time) ; RH_NephVol_Wet:long_name = "Relative humidity inside of wet nephelometer" ; RH_NephVol_Wet:units = "%" ; RH_NephVol_Wet:missing_data = -9999.f ; float T_NephVol_Wet(time) ; T_NephVol_Wet:long_name = "Temperature inside of wet nephelometer" ; T_NephVol_Wet:units = "C" ; T_NephVol_Wet:missing_data = -9999.f ; float RH_Ambient(time) ; RH_Ambient:long_name = "Relative humidity in ambient air" ; RH_Ambient:units = "%" ; RH_Ambient:missing_data = -9999.f ; float T_Ambient(time) ; T_Ambient:long_name = "Temperature in ambient air" ; T_Ambient:units = "C" ; T_Ambient:missing_data = -9999.f ; float P_Ambient(time) ; P_Ambient:long_name = "Ambient pressure" ; P_Ambient:units = "hPa" ; P_Ambient:missing_data = -9999.f ; float P_Neph_Dry(time) ; P_Neph_Dry:long_name = "Pressure inside reference nephelometer" ; P_Neph_Dry:units = "hPa" ; P_Neph_Dry:missing_data = -9999.f ; float P_Neph_Wet(time) ; P_Neph_Wet:long_name = "Pressure inside wet nephelometer" ; P_Neph_Wet:units = "hPa" ; P_Neph_Wet:missing_data = -9999.f ; float WindSpeed(time) ; WindSpeed:long_name = "Wind speed" ; WindSpeed:units = "m/s" ; WindSpeed:missing_data = -9999.f ; float WindDirection(time) ; WindDirection:long_name = "Wind Direction, relative to true North" ; WindDirection:units = "deg" ; WindDirection:missing_data = -9999.f ; float Ba_B_Dry_10um_PSAP3W_1(time) ; Ba_B_Dry_10um_PSAP3W_1:long_name = "Absorption coefficient blue, corrected for flow and sample area, 3 wavelength PSAP, 10 um size cut" ; Ba_B_Dry_10um_PSAP3W_1:units = "1/m" ; Ba_B_Dry_10um_PSAP3W_1:missing_data = -9999.f ; Ba_B_Dry_10um_PSAP3W_1:filter_wavelength = "467 nm" ; Ba_B_Dry_10um_PSAP3W_1:corr_eqn = "BapBluRaw * (A/17.81)*(Q/Q_true)" ; Ba_B_Dry_10um_PSAP3W_1:corr_eqn_comment_1 = "A -s filter sample area (mm^2)" ; Ba_B_Dry_10um_PSAP3W_1:corr_eqn_comment_2 = "17.81 is sample area Bap values are based upon" ; Ba_B_Dry_10um_PSAP3W_1:corr_eqn_comment_3 = "Q is instrument indicated flow" ; Ba_B_Dry_10um_PSAP3W_1:corr_eqn_comment_4 = "Q_true is corrected flow" ; float Ba_G_Dry_10um_PSAP3W_1(time) ; Ba_G_Dry_10um_PSAP3W_1:long_name = "Absorption coefficient green, corrected for flow and sample area, 3 wavelength PSAP, 10 um size cut" ; Ba_G_Dry_10um_PSAP3W_1:units = "1/m" ; Ba_G_Dry_10um_PSAP3W_1:missing_data = -9999.f ; Ba_G_Dry_10um_PSAP3W_1:filter_wavelength = "530 nm" ; Ba_G_Dry_10um_PSAP3W_1:corr_eqn = "BapGrnRaw * (A/17.81)*(Q/Q_true)" ; Ba_G_Dry_10um_PSAP3W_1:corr_eqn_comment_1 = "A -s filter sample area (mm^2)" ; Ba_G_Dry_10um_PSAP3W_1:corr_eqn_comment_2 = "17.81 is sample area Bap values are based upon" ; Ba_G_Dry_10um_PSAP3W_1:corr_eqn_comment_3 = "Q is instrument indicated flow" ; Ba_G_Dry_10um_PSAP3W_1:corr_eqn_comment_4 = "Q_true is corrected flow" ; float Ba_R_Dry_10um_PSAP3W_1(time) ; Ba_R_Dry_10um_PSAP3W_1:long_name = "Absorption coefficient red, corrected for flow and sample area, 3 wavelength PSAP, 10 um size cut" ; Ba_R_Dry_10um_PSAP3W_1:units = "1/m" ; Ba_R_Dry_10um_PSAP3W_1:missing_data = -9999.f ; Ba_R_Dry_10um_PSAP3W_1:filter_wavelength = "660 nm" ; Ba_R_Dry_10um_PSAP3W_1:corr_eqn = "BapRedRaw * (A/17.81)*(Q/Q_true)" ; Ba_R_Dry_10um_PSAP3W_1:corr_eqn_comment_1 = "A -s filter sample area (mm^2)" ; Ba_R_Dry_10um_PSAP3W_1:corr_eqn_comment_2 = "17.81 is sample area Bap values are based upon" ; Ba_R_Dry_10um_PSAP3W_1:corr_eqn_comment_3 = "Q is instrument indicated flow" ; Ba_R_Dry_10um_PSAP3W_1:corr_eqn_comment_4 = "Q_true is corrected flow" ; float Ba_B_Dry_1um_PSAP3W_1(time) ; Ba_B_Dry_1um_PSAP3W_1:long_name = "Absorption coefficient blue, corrected for flow and sample area, 3 wavelength PSAP, 1 um size cut" ; Ba_B_Dry_1um_PSAP3W_1:units = "1/m" ; Ba_B_Dry_1um_PSAP3W_1:missing_data = -9999.f ; Ba_B_Dry_1um_PSAP3W_1:filter_wavelength = "467 nm" ; Ba_B_Dry_1um_PSAP3W_1:corr_eqn = "BapBluRaw * (A/17.81)*(Q/Q_true)" ; Ba_B_Dry_1um_PSAP3W_1:corr_eqn_comment_1 = "A -s filter sample area (mm^2)" ; Ba_B_Dry_1um_PSAP3W_1:corr_eqn_comment_2 = "17.81 is sample area Bap values are based upon" ; Ba_B_Dry_1um_PSAP3W_1:corr_eqn_comment_3 = "Q is instrument indicated flow" ; Ba_B_Dry_1um_PSAP3W_1:corr_eqn_comment_4 = "Q_true is corrected flow" ; float Ba_G_Dry_1um_PSAP3W_1(time) ; Ba_G_Dry_1um_PSAP3W_1:long_name = "Absorption coefficient green, corrected for flow and sample area, 3 wavelength PSAP, 1 um size cut" ; Ba_G_Dry_1um_PSAP3W_1:units = "1/m" ; Ba_G_Dry_1um_PSAP3W_1:missing_data = -9999.f ; Ba_G_Dry_1um_PSAP3W_1:filter_wavelength = "530 nm" ; Ba_G_Dry_1um_PSAP3W_1:corr_eqn = "BapGrnRaw * (A/17.81)*(Q/Q_true)" ; Ba_G_Dry_1um_PSAP3W_1:corr_eqn_comment_1 = "A -s filter sample area (mm^2)" ; Ba_G_Dry_1um_PSAP3W_1:corr_eqn_comment_2 = "17.81 is sample area Bap values are based upon" ; Ba_G_Dry_1um_PSAP3W_1:corr_eqn_comment_3 = "Q is instrument indicated flow" ; Ba_G_Dry_1um_PSAP3W_1:corr_eqn_comment_4 = "Q_true is corrected flow" ; float Ba_R_Dry_1um_PSAP3W_1(time) ; Ba_R_Dry_1um_PSAP3W_1:long_name = "Absorption coefficient red, corrected for flow and sample area, 3 wavelength PSAP, 1 um size cut" ; Ba_R_Dry_1um_PSAP3W_1:units = "1/m" ; Ba_R_Dry_1um_PSAP3W_1:missing_data = -9999.f ; Ba_R_Dry_1um_PSAP3W_1:filter_wavelength = "660 nm" ; Ba_R_Dry_1um_PSAP3W_1:corr_eqn = "BapRedRaw * (A/17.81)*(Q/Q_true)" ; Ba_R_Dry_1um_PSAP3W_1:corr_eqn_comment_1 = "A -s filter sample area (mm^2)" ; Ba_R_Dry_1um_PSAP3W_1:corr_eqn_comment_2 = "17.81 is sample area Bap values are based upon" ; Ba_R_Dry_1um_PSAP3W_1:corr_eqn_comment_3 = "Q is instrument indicated flow" ; Ba_R_Dry_1um_PSAP3W_1:corr_eqn_comment_4 = "Q_true is corrected flow" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; // global attributes: :process_version = "ingest-noaaaos-2.1-0.el5" ; :command_line = "noaaaos_ingest -s grw -f M1" ; :Title = "NOAA/CMDL AOS (mentor edited) data, collected at ARM facilities in Lamont, OK" ; :Comment_1 = "Read from data supplied by NOAA/CMDL (1 minute averaged humidograph data)" ; :Comment_2 = "1 minute averaged aerosol data is a subset of the humidograph data. It is not actively processed by the cmdlaos ingest" ; :sampling_interval = "1 second" ; :averaging_interval = "60 seconds" ; :site_id = "grw" ; :facility_id = "M1: Graciosa Island, Azores" ; :zeb_platform = "grwnoaaaosM1.b1" ; :dod_version = "noaaaos-b1-1.1" ; :input_source = "/data/home/koontz/data/collection//grw/grwnoaaaosM1.00/grw1aoshM1.00.20101231.000000.raw.asc" ; :serial_number = "" ; :qc_standards_version = "1.0" ; :qc_method = "" ; :history = "created by user koontz on machine mercury at 13-Feb-2013,16:49:54, using $State: zebra-zeblib-4.23-0.el5 $" ; }