netcdf pvcaosaethS1.a1.20130402.000332 { dimensions: time = UNLIMITED ; // (180 currently) variables: int base_time ; base_time:string = "2013-04-02 00:00:00 0:00" ; 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 2013-04-02 00:00:00 0:00" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2013-04-02 00:00:00 0:00" ; float bcm_ultraviolet_10um(time) ; bcm_ultraviolet_10um:long_name = "Black carbon mass load at 370 nm, 10 um size cut" ; bcm_ultraviolet_10um:units = "ng/m^3" ; bcm_ultraviolet_10um:missing_value = -9999.f ; float bcm_near_ultraviolet_10um(time) ; bcm_near_ultraviolet_10um:long_name = "Black carbon mass load at 430 nm, 10 um size cut" ; bcm_near_ultraviolet_10um:units = "ng/m^3" ; bcm_near_ultraviolet_10um:missing_value = -9999.f ; float bcm_blue_10um(time) ; bcm_blue_10um:long_name = "Black carbon mass load at 470 nm, 10 um size cut" ; bcm_blue_10um:units = "ng/m^3" ; bcm_blue_10um:missing_value = -9999.f ; float bcm_green_10um(time) ; bcm_green_10um:long_name = "Black carbon mass load at 520 nm, 10 um size cut" ; bcm_green_10um:units = "ng/m^3" ; bcm_green_10um:missing_value = -9999.f ; float bcm_yellow_10um(time) ; bcm_yellow_10um:long_name = "Black carbon mass load at 565 nm, 10 um size cut" ; bcm_yellow_10um:units = "ng/m^3" ; bcm_yellow_10um:missing_value = -9999.f ; float bcm_orange_10um(time) ; bcm_orange_10um:long_name = "Black carbon mass load at 700 nm, 10 um size cut" ; bcm_orange_10um:units = "ng/m^3" ; bcm_orange_10um:missing_value = -9999.f ; float bcm_near_infrared_10um(time) ; bcm_near_infrared_10um:long_name = "Black carbon mass load at 880 nm, 10 um size cut" ; bcm_near_infrared_10um:units = "ng/m^3" ; bcm_near_infrared_10um:missing_value = -9999.f ; float flowrate(time) ; flowrate:long_name = "Instrument flow rate" ; flowrate:units = "l/min" ; flowrate:missing_value = -9999.f ; float ultraviolet_zero_signal_10um(time) ; ultraviolet_zero_signal_10um:long_name = "Zero signal at 370 nm, 10 um size cut" ; ultraviolet_zero_signal_10um:units = "count" ; ultraviolet_zero_signal_10um:missing_value = -9999.f ; float ultraviolet_beam_signal_10um(time) ; ultraviolet_beam_signal_10um:long_name = "Beam signal at 370 nm, 10 um size cut" ; ultraviolet_beam_signal_10um:units = "count" ; ultraviolet_beam_signal_10um:missing_value = -9999.f ; float ultraviolet_ref_zero_10um(time) ; ultraviolet_ref_zero_10um:long_name = "Reference zero at 370 nm, 10 um size cut" ; ultraviolet_ref_zero_10um:units = "count" ; ultraviolet_ref_zero_10um:missing_value = -9999.f ; float ultraviolet_ref_beam_10um(time) ; ultraviolet_ref_beam_10um:long_name = "Reference beam at 370 nm, 10 um size cut" ; ultraviolet_ref_beam_10um:units = "count" ; ultraviolet_ref_beam_10um:missing_value = -9999.f ; float ultraviolet_bypass_fraction_10um(time) ; ultraviolet_bypass_fraction_10um:long_name = "Bypass fraction at 370 nm, 10 um size cut" ; ultraviolet_bypass_fraction_10um:units = "unitless" ; ultraviolet_bypass_fraction_10um:missing_value = -9999.f ; float ultraviolet_optical_attenuation_10um(time) ; ultraviolet_optical_attenuation_10um:long_name = "Optical attenuation at 370 nm, 10 um size cut" ; ultraviolet_optical_attenuation_10um:units = "unitless" ; ultraviolet_optical_attenuation_10um:missing_value = -9999.f ; float near_ultraviolet_zero_signal_10um(time) ; near_ultraviolet_zero_signal_10um:long_name = "Zero signal at 430 nm, 10 um size cut" ; near_ultraviolet_zero_signal_10um:units = "count" ; near_ultraviolet_zero_signal_10um:missing_value = -9999.f ; float near_ultraviolet_beam_signal_10um(time) ; near_ultraviolet_beam_signal_10um:long_name = "Beam signal at 430 nm, 10 um size cut" ; near_ultraviolet_beam_signal_10um:units = "count" ; near_ultraviolet_beam_signal_10um:missing_value = -9999.f ; float near_ultraviolet_ref_zero_10um(time) ; near_ultraviolet_ref_zero_10um:long_name = "Reference zero at 430 nm, 10 um size cut" ; near_ultraviolet_ref_zero_10um:units = "count" ; near_ultraviolet_ref_zero_10um:missing_value = -9999.f ; float near_ultraviolet_ref_beam_10um(time) ; near_ultraviolet_ref_beam_10um:long_name = "Reference beam at 430 nm, 10 um size cut" ; near_ultraviolet_ref_beam_10um:units = "count" ; near_ultraviolet_ref_beam_10um:missing_value = -9999.f ; float near_ultraviolet_bypass_fraction_10um(time) ; near_ultraviolet_bypass_fraction_10um:long_name = "Bypass fraction at 430 nm, 10 um size cut" ; near_ultraviolet_bypass_fraction_10um:units = "unitless" ; near_ultraviolet_bypass_fraction_10um:missing_value = -9999.f ; float near_ultraviolet_optical_attenuation_10um(time) ; near_ultraviolet_optical_attenuation_10um:long_name = "Optical attenuation at 430 nm, 10 um size cut" ; near_ultraviolet_optical_attenuation_10um:units = "unitless" ; near_ultraviolet_optical_attenuation_10um:missing_value = -9999.f ; float blue_zero_signal_10um(time) ; blue_zero_signal_10um:long_name = "Zero signal at 470 nm, 10 um size cut" ; blue_zero_signal_10um:units = "count" ; blue_zero_signal_10um:missing_value = -9999.f ; float blue_beam_signal_10um(time) ; blue_beam_signal_10um:long_name = "Beam signal at 470 nm, 10 um size cut" ; blue_beam_signal_10um:units = "count" ; blue_beam_signal_10um:missing_value = -9999.f ; float blue_ref_zero_10um(time) ; blue_ref_zero_10um:long_name = "Reference zero at 470 nm, 10 um size cut" ; blue_ref_zero_10um:units = "count" ; blue_ref_zero_10um:missing_value = -9999.f ; float blue_ref_beam_10um(time) ; blue_ref_beam_10um:long_name = "Reference beam at 470 nm, 10 um size cut" ; blue_ref_beam_10um:units = "count" ; blue_ref_beam_10um:missing_value = -9999.f ; float blue_bypass_fraction_10um(time) ; blue_bypass_fraction_10um:long_name = "Bypass fraction at 470 nm, 10 um size cut" ; blue_bypass_fraction_10um:units = "unitless" ; blue_bypass_fraction_10um:missing_value = -9999.f ; float blue_optical_attenuation_10um(time) ; blue_optical_attenuation_10um:long_name = "Optical attenuation at 470 nm, 10 um size cut" ; blue_optical_attenuation_10um:units = "unitless" ; blue_optical_attenuation_10um:missing_value = -9999.f ; float green_zero_signal_10um(time) ; green_zero_signal_10um:long_name = "Zero signal at 520 nm, 10 um size cut" ; green_zero_signal_10um:units = "count" ; green_zero_signal_10um:missing_value = -9999.f ; float green_beam_signal_10um(time) ; green_beam_signal_10um:long_name = "Beam signal at 520 nm, 10 um size cut" ; green_beam_signal_10um:units = "count" ; green_beam_signal_10um:missing_value = -9999.f ; float green_ref_zero_10um(time) ; green_ref_zero_10um:long_name = "Reference zero at 520 nm, 10 um size cut" ; green_ref_zero_10um:units = "count" ; green_ref_zero_10um:missing_value = -9999.f ; float green_ref_beam_10um(time) ; green_ref_beam_10um:long_name = "Reference beam at 520 nm, 10 um size cut" ; green_ref_beam_10um:units = "count" ; green_ref_beam_10um:missing_value = -9999.f ; float green_bypass_fraction_10um(time) ; green_bypass_fraction_10um:long_name = "Bypass fraction at 520 nm, 10 um size cut" ; green_bypass_fraction_10um:units = "unitless" ; green_bypass_fraction_10um:missing_value = -9999.f ; float green_optical_attenuation_10um(time) ; green_optical_attenuation_10um:long_name = "Optical attenuation at 520 nm, 10 um size cut" ; green_optical_attenuation_10um:units = "unitless" ; green_optical_attenuation_10um:missing_value = -9999.f ; float yellow_zero_signal_10um(time) ; yellow_zero_signal_10um:long_name = "Zero signal at 565 nm, 10 um size cut" ; yellow_zero_signal_10um:units = "count" ; yellow_zero_signal_10um:missing_value = -9999.f ; float yellow_beam_signal_10um(time) ; yellow_beam_signal_10um:long_name = "Beam signal at 565 nm, 10 um size cut" ; yellow_beam_signal_10um:units = "count" ; yellow_beam_signal_10um:missing_value = -9999.f ; float yellow_ref_zero_10um(time) ; yellow_ref_zero_10um:long_name = "Reference zero at 565 nm, 10 um size cut" ; yellow_ref_zero_10um:units = "count" ; yellow_ref_zero_10um:missing_value = -9999.f ; float yellow_ref_beam_10um(time) ; yellow_ref_beam_10um:long_name = "Reference beam at 565 nm, 10 um size cut" ; yellow_ref_beam_10um:units = "count" ; yellow_ref_beam_10um:missing_value = -9999.f ; float yellow_bypass_fraction_10um(time) ; yellow_bypass_fraction_10um:long_name = "Bypass fraction at 565 nm, 10 um size cut" ; yellow_bypass_fraction_10um:units = "unitless" ; yellow_bypass_fraction_10um:missing_value = -9999.f ; float yellow_optical_attenuation_10um(time) ; yellow_optical_attenuation_10um:long_name = "Optical attenuation at 565 nm, 10 um size cut" ; yellow_optical_attenuation_10um:units = "unitless" ; yellow_optical_attenuation_10um:missing_value = -9999.f ; float orange_zero_signal_10um(time) ; orange_zero_signal_10um:long_name = "Zero signal at 700 nm, 10 um size cut" ; orange_zero_signal_10um:units = "count" ; orange_zero_signal_10um:missing_value = -9999.f ; float orange_beam_signal_10um(time) ; orange_beam_signal_10um:long_name = "Beam signal at 700 nm, 10 um size cut" ; orange_beam_signal_10um:units = "count" ; orange_beam_signal_10um:missing_value = -9999.f ; float orange_ref_zero_10um(time) ; orange_ref_zero_10um:long_name = "Reference zero at 700 nm, 10 um size cut" ; orange_ref_zero_10um:units = "count" ; orange_ref_zero_10um:missing_value = -9999.f ; float orange_ref_beam_10um(time) ; orange_ref_beam_10um:long_name = "Reference beam at 700 nm, 10 um size cut" ; orange_ref_beam_10um:units = "count" ; orange_ref_beam_10um:missing_value = -9999.f ; float orange_bypass_fraction_10um(time) ; orange_bypass_fraction_10um:long_name = "Bypass fraction at 700 nm, 10 um size cut" ; orange_bypass_fraction_10um:units = "unitless" ; orange_bypass_fraction_10um:missing_value = -9999.f ; float orange_optical_attenuation_10um(time) ; orange_optical_attenuation_10um:long_name = "Optical attenuation at 700 nm, 10 um size cut" ; orange_optical_attenuation_10um:units = "unitless" ; orange_optical_attenuation_10um:missing_value = -9999.f ; float near_infrared_zero_signal_10um(time) ; near_infrared_zero_signal_10um:long_name = "Zero signal at 880 nm, 10 um size cut" ; near_infrared_zero_signal_10um:units = "count" ; near_infrared_zero_signal_10um:missing_value = -9999.f ; float near_infrared_beam_signal_10um(time) ; near_infrared_beam_signal_10um:long_name = "Beam signal at 880 nm, 10 um size cut" ; near_infrared_beam_signal_10um:units = "count" ; near_infrared_beam_signal_10um:missing_value = -9999.f ; float near_infrared_ref_zero_10um(time) ; near_infrared_ref_zero_10um:long_name = "Reference zero at 880 nm, 10 um size cut" ; near_infrared_ref_zero_10um:units = "count" ; near_infrared_ref_zero_10um:missing_value = -9999.f ; float near_infrared_ref_beam_10um(time) ; near_infrared_ref_beam_10um:long_name = "Reference beam at 880 nm, 10 um size cut" ; near_infrared_ref_beam_10um:units = "count" ; near_infrared_ref_beam_10um:missing_value = -9999.f ; float near_infrared_bypass_fraction_10um(time) ; near_infrared_bypass_fraction_10um:long_name = "Bypass fraction at 880 nm, 10 um size cut" ; near_infrared_bypass_fraction_10um:units = "unitless" ; near_infrared_bypass_fraction_10um:missing_value = -9999.f ; float near_infrared_optical_attenuation_10um(time) ; near_infrared_optical_attenuation_10um:long_name = "Optical attenuation at 880 nm, 10 um size cut" ; near_infrared_optical_attenuation_10um:units = "unitless" ; near_infrared_optical_attenuation_10um:missing_value = -9999.f ; float bcm_ultraviolet_1um(time) ; bcm_ultraviolet_1um:long_name = "Black carbon mass load at 370 nm, 1 um size cut" ; bcm_ultraviolet_1um:units = "ng/m^3" ; bcm_ultraviolet_1um:missing_value = -9999.f ; float bcm_near_ultraviolet_1um(time) ; bcm_near_ultraviolet_1um:long_name = "Black carbon mass load at 430 nm, 1 um size cut" ; bcm_near_ultraviolet_1um:units = "ng/m^3" ; bcm_near_ultraviolet_1um:missing_value = -9999.f ; float bcm_blue_1um(time) ; bcm_blue_1um:long_name = "Black carbon mass load at 470 nm, 1 um size cut" ; bcm_blue_1um:units = "ng/m^3" ; bcm_blue_1um:missing_value = -9999.f ; float bcm_green_1um(time) ; bcm_green_1um:long_name = "Black carbon mass load at 520 nm, 1 um size cut" ; bcm_green_1um:units = "ng/m^3" ; bcm_green_1um:missing_value = -9999.f ; float bcm_yellow_1um(time) ; bcm_yellow_1um:long_name = "Black carbon mass load at 565 nm, 1 um size cut" ; bcm_yellow_1um:units = "ng/m^3" ; bcm_yellow_1um:missing_value = -9999.f ; float bcm_orange_1um(time) ; bcm_orange_1um:long_name = "Black carbon mass load at 700 nm, 1 um size cut" ; bcm_orange_1um:units = "ng/m^3" ; bcm_orange_1um:missing_value = -9999.f ; float bcm_near_infrared_1um(time) ; bcm_near_infrared_1um:long_name = "Black carbon mass load at 880 nm, 1 um size cut" ; bcm_near_infrared_1um:units = "ng/m^3" ; bcm_near_infrared_1um:missing_value = -9999.f ; float ultraviolet_zero_signal_1um(time) ; ultraviolet_zero_signal_1um:long_name = "Zero signal at 370 nm, 1 um size cut" ; ultraviolet_zero_signal_1um:units = "count" ; ultraviolet_zero_signal_1um:missing_value = -9999.f ; float ultraviolet_beam_signal_1um(time) ; ultraviolet_beam_signal_1um:long_name = "Beam signal at 370 nm, 1 um size cut" ; ultraviolet_beam_signal_1um:units = "count" ; ultraviolet_beam_signal_1um:missing_value = -9999.f ; float ultraviolet_ref_zero_1um(time) ; ultraviolet_ref_zero_1um:long_name = "Reference zero at 370 nm, 1 um size cut" ; ultraviolet_ref_zero_1um:units = "count" ; ultraviolet_ref_zero_1um:missing_value = -9999.f ; float ultraviolet_ref_beam_1um(time) ; ultraviolet_ref_beam_1um:long_name = "Reference beam at 370 nm, 1 um size cut" ; ultraviolet_ref_beam_1um:units = "count" ; ultraviolet_ref_beam_1um:missing_value = -9999.f ; float ultraviolet_bypass_fraction_1um(time) ; ultraviolet_bypass_fraction_1um:long_name = "Bypass fraction at 370 nm, 1 um size cut" ; ultraviolet_bypass_fraction_1um:units = "unitless" ; ultraviolet_bypass_fraction_1um:missing_value = -9999.f ; float ultraviolet_optical_attenuation_1um(time) ; ultraviolet_optical_attenuation_1um:long_name = "Optical attenuation at 370 nm, 1 um size cut" ; ultraviolet_optical_attenuation_1um:units = "unitless" ; ultraviolet_optical_attenuation_1um:missing_value = -9999.f ; float near_ultraviolet_zero_signal_1um(time) ; near_ultraviolet_zero_signal_1um:long_name = "Zero signal at 430 nm, 1 um size cut" ; near_ultraviolet_zero_signal_1um:units = "count" ; near_ultraviolet_zero_signal_1um:missing_value = -9999.f ; float near_ultraviolet_beam_signal_1um(time) ; near_ultraviolet_beam_signal_1um:long_name = "Beam signal at 430 nm, 1 um size cut" ; near_ultraviolet_beam_signal_1um:units = "count" ; near_ultraviolet_beam_signal_1um:missing_value = -9999.f ; float near_ultraviolet_ref_zero_1um(time) ; near_ultraviolet_ref_zero_1um:long_name = "Reference zero at 430 nm, 1 um size cut" ; near_ultraviolet_ref_zero_1um:units = "count" ; near_ultraviolet_ref_zero_1um:missing_value = -9999.f ; float near_ultraviolet_ref_beam_1um(time) ; near_ultraviolet_ref_beam_1um:long_name = "Reference beam at 430 nm, 1 um size cut" ; near_ultraviolet_ref_beam_1um:units = "count" ; near_ultraviolet_ref_beam_1um:missing_value = -9999.f ; float near_ultraviolet_bypass_fraction_1um(time) ; near_ultraviolet_bypass_fraction_1um:long_name = "Bypass fraction at 430 nm, 1 um size cut" ; near_ultraviolet_bypass_fraction_1um:units = "unitless" ; near_ultraviolet_bypass_fraction_1um:missing_value = -9999.f ; float near_ultraviolet_optical_attenuation_1um(time) ; near_ultraviolet_optical_attenuation_1um:long_name = "Optical attenuation at 430 nm, 1 um size cut" ; near_ultraviolet_optical_attenuation_1um:units = "unitless" ; near_ultraviolet_optical_attenuation_1um:missing_value = -9999.f ; float blue_zero_signal_1um(time) ; blue_zero_signal_1um:long_name = "Zero signal at 470 nm, 1 um size cut" ; blue_zero_signal_1um:units = "count" ; blue_zero_signal_1um:missing_value = -9999.f ; float blue_beam_signal_1um(time) ; blue_beam_signal_1um:long_name = "Beam signal at 470 nm, 1 um size cut" ; blue_beam_signal_1um:units = "count" ; blue_beam_signal_1um:missing_value = -9999.f ; float blue_ref_zero_1um(time) ; blue_ref_zero_1um:long_name = "Reference zero at 470 nm, 1 um size cut" ; blue_ref_zero_1um:units = "count" ; blue_ref_zero_1um:missing_value = -9999.f ; float blue_ref_beam_1um(time) ; blue_ref_beam_1um:long_name = "Reference beam at 470 nm, 1 um size cut" ; blue_ref_beam_1um:units = "count" ; blue_ref_beam_1um:missing_value = -9999.f ; float blue_bypass_fraction_1um(time) ; blue_bypass_fraction_1um:long_name = "Bypass fraction at 470 nm, 1 um size cut" ; blue_bypass_fraction_1um:units = "unitless" ; blue_bypass_fraction_1um:missing_value = -9999.f ; float blue_optical_attenuation_1um(time) ; blue_optical_attenuation_1um:long_name = "Optical attenuation at 470 nm, 1 um size cut" ; blue_optical_attenuation_1um:units = "unitless" ; blue_optical_attenuation_1um:missing_value = -9999.f ; float green_zero_signal_1um(time) ; green_zero_signal_1um:long_name = "Zero signal at 520 nm, 1 um size cut" ; green_zero_signal_1um:units = "count" ; green_zero_signal_1um:missing_value = -9999.f ; float green_beam_signal_1um(time) ; green_beam_signal_1um:long_name = "Beam signal at 520 nm, 1 um size cut" ; green_beam_signal_1um:units = "count" ; green_beam_signal_1um:missing_value = -9999.f ; float green_ref_zero_1um(time) ; green_ref_zero_1um:long_name = "Reference zero at 520 nm, 1 um size cut" ; green_ref_zero_1um:units = "count" ; green_ref_zero_1um:missing_value = -9999.f ; float green_ref_beam_1um(time) ; green_ref_beam_1um:long_name = "Reference beam at 520 nm, 1 um size cut" ; green_ref_beam_1um:units = "count" ; green_ref_beam_1um:missing_value = -9999.f ; float green_bypass_fraction_1um(time) ; green_bypass_fraction_1um:long_name = "Bypass fraction at 520 nm, 1 um size cut" ; green_bypass_fraction_1um:units = "unitless" ; green_bypass_fraction_1um:missing_value = -9999.f ; float green_optical_attenuation_1um(time) ; green_optical_attenuation_1um:long_name = "Optical attenuation at 520 nm, 1 um size cut" ; green_optical_attenuation_1um:units = "unitless" ; green_optical_attenuation_1um:missing_value = -9999.f ; float yellow_zero_signal_1um(time) ; yellow_zero_signal_1um:long_name = "Zero signal at 565 nm, 1 um size cut" ; yellow_zero_signal_1um:units = "count" ; yellow_zero_signal_1um:missing_value = -9999.f ; float yellow_beam_signal_1um(time) ; yellow_beam_signal_1um:long_name = "Beam signal at 565 nm, 1 um size cut" ; yellow_beam_signal_1um:units = "count" ; yellow_beam_signal_1um:missing_value = -9999.f ; float yellow_ref_zero_1um(time) ; yellow_ref_zero_1um:long_name = "Reference zero at 565 nm, 1 um size cut" ; yellow_ref_zero_1um:units = "count" ; yellow_ref_zero_1um:missing_value = -9999.f ; float yellow_ref_beam_1um(time) ; yellow_ref_beam_1um:long_name = "Reference beam at 565 nm, 1 um size cut" ; yellow_ref_beam_1um:units = "count" ; yellow_ref_beam_1um:missing_value = -9999.f ; float yellow_bypass_fraction_1um(time) ; yellow_bypass_fraction_1um:long_name = "Bypass fraction at 565 nm, 1 um size cut" ; yellow_bypass_fraction_1um:units = "unitless" ; yellow_bypass_fraction_1um:missing_value = -9999.f ; float yellow_optical_attenuation_1um(time) ; yellow_optical_attenuation_1um:long_name = "Optical attenuation at 565 nm, 1 um size cut" ; yellow_optical_attenuation_1um:units = "unitless" ; yellow_optical_attenuation_1um:missing_value = -9999.f ; float orange_zero_signal_1um(time) ; orange_zero_signal_1um:long_name = "Zero signal at 700 nm, 1 um size cut" ; orange_zero_signal_1um:units = "count" ; orange_zero_signal_1um:missing_value = -9999.f ; float orange_beam_signal_1um(time) ; orange_beam_signal_1um:long_name = "Beam signal at 700 nm, 1 um size cut" ; orange_beam_signal_1um:units = "count" ; orange_beam_signal_1um:missing_value = -9999.f ; float orange_ref_zero_1um(time) ; orange_ref_zero_1um:long_name = "Reference zero at 700 nm, 1 um size cut" ; orange_ref_zero_1um:units = "count" ; orange_ref_zero_1um:missing_value = -9999.f ; float orange_ref_beam_1um(time) ; orange_ref_beam_1um:long_name = "Reference beam at 700 nm, 1 um size cut" ; orange_ref_beam_1um:units = "count" ; orange_ref_beam_1um:missing_value = -9999.f ; float orange_bypass_fraction_1um(time) ; orange_bypass_fraction_1um:long_name = "Bypass fraction at 700 nm, 1 um size cut" ; orange_bypass_fraction_1um:units = "unitless" ; orange_bypass_fraction_1um:missing_value = -9999.f ; float orange_optical_attenuation_1um(time) ; orange_optical_attenuation_1um:long_name = "Optical attenuation at 700 nm, 1 um size cut" ; orange_optical_attenuation_1um:units = "unitless" ; orange_optical_attenuation_1um:missing_value = -9999.f ; float near_infrared_zero_signal_1um(time) ; near_infrared_zero_signal_1um:long_name = "Zero signal at 880 nm, 1 um size cut" ; near_infrared_zero_signal_1um:units = "count" ; near_infrared_zero_signal_1um:missing_value = -9999.f ; float near_infrared_beam_signal_1um(time) ; near_infrared_beam_signal_1um:long_name = "Beam signal at 880 nm, 1 um size cut" ; near_infrared_beam_signal_1um:units = "count" ; near_infrared_beam_signal_1um:missing_value = -9999.f ; float near_infrared_ref_zero_1um(time) ; near_infrared_ref_zero_1um:long_name = "Reference zero at 880 nm, 1 um size cut" ; near_infrared_ref_zero_1um:units = "count" ; near_infrared_ref_zero_1um:missing_value = -9999.f ; float near_infrared_ref_beam_1um(time) ; near_infrared_ref_beam_1um:long_name = "Reference beam at 880 nm, 1 um size cut" ; near_infrared_ref_beam_1um:units = "count" ; near_infrared_ref_beam_1um:missing_value = -9999.f ; float near_infrared_bypass_fraction_1um(time) ; near_infrared_bypass_fraction_1um:long_name = "Bypass fraction at 880 nm, 1 um size cut" ; near_infrared_bypass_fraction_1um:units = "unitless" ; near_infrared_bypass_fraction_1um:missing_value = -9999.f ; float near_infrared_optical_attenuation_1um(time) ; near_infrared_optical_attenuation_1um:long_name = "Optical attenuation at 880 nm, 1 um size cut" ; near_infrared_optical_attenuation_1um:units = "unitless" ; near_infrared_optical_attenuation_1um:missing_value = -9999.f ; 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: :command_line = "aos_ingest -n aosaeth -s pvc -f S1" ; :process_version = "ingest-aos-11.1-0.el5" ; :dod_version = "aosaeth-a1-2.1" ; :site_id = "pvc" ; :facility_id = "S1: Cape Cod, Massachusetts" ; :data_level = "a1" ; :input_source = "pvcmaosas1.aeth.05m.00.20130402.000332.raw.tsv" ; :sampling_interval = "1 second" ; :averaging_interval = "not averaged" ; :serial_number = "not available" ; :datastream = "pvcaosaethS1.a1" ; :history = "created by user dsmgr on machine iron at 2013-04-02 04:34:00, using ingest-aos-11.1-0.el5" ; }