netcdf hfenoaaaosfitrhM1.b1.20081228.002847 { dimensions: time = UNLIMITED ; // (16 currently) RH = 13 ; variables: int base_time ; base_time:string = "28-Dec-2008,0:28:47 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 2008-12-28 00:28:47 0:00" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2008-12-28 00:00:00 0:00" ; float fRH_85by40_3param_R_10um(time) ; fRH_85by40_3param_R_10um:long_name = "Red wavelength, fitted value of f(RH) for 85/40, three parameter fit, 10um" ; fRH_85by40_3param_R_10um:units = "unitless" ; fRH_85by40_3param_R_10um:missing_data = -9999.f ; float fRH_3param_R_10um(time, RH) ; fRH_3param_R_10um:long_name = "Red wavelength, fitted value of f(RH), three parameter fit, 10um" ; fRH_3param_R_10um:units = "unitless" ; fRH_3param_R_10um:missing_data = -9999.f ; float fRH_3param_chi_R_10um(time) ; fRH_3param_chi_R_10um:long_name = "Red wavelength, goodness of fit parameter, three parameter fit, 10um" ; fRH_3param_chi_R_10um:units = "unitless" ; fRH_3param_chi_R_10um:missing_data = -9999.f ; float fRH_Bs_R_10um_min(time) ; fRH_Bs_R_10um_min:long_name = "Red wavelength, minimum light scattering coefficient for wavelength reported by STP, 10um" ; fRH_Bs_R_10um_min:units = "1/Mm" ; fRH_Bs_R_10um_min:missing_data = -9999.f ; float fRH_RH_Dry_10um_min(time) ; fRH_RH_Dry_10um_min:long_name = "Red wavelength, minimum dry relative humidity used in curve fit, 10um" ; fRH_RH_Dry_10um_min:units = "%" ; fRH_RH_Dry_10um_min:missing_data = -9999.f ; float fRH_RH_Dry_10um_max(time) ; fRH_RH_Dry_10um_max:long_name = "Red wavelength, maximum dry relative humidity used in curve fit, 10um" ; fRH_RH_Dry_10um_max:units = "%" ; fRH_RH_Dry_10um_max:missing_data = -9999.f ; float fRH_RH_Wet_10um_min(time) ; fRH_RH_Wet_10um_min:long_name = "Red wavelength, minimum wet relative humidity used in curve fit, 10um" ; fRH_RH_Wet_10um_min:units = "%" ; fRH_RH_Wet_10um_min:missing_data = -9999.f ; float fRH_RH_Wet_10um_max(time) ; fRH_RH_Wet_10um_max:long_name = "Red wavelength, maximum wet relative humidity used in curve fit, 10um" ; fRH_RH_Wet_10um_max:units = "%" ; fRH_RH_Wet_10um_max:missing_data = -9999.f ; float fRH_3param_p1_R_10um(time) ; fRH_3param_p1_R_10um:long_name = "Red wavelength, three parameter curve fit, parameter 1, 10um" ; fRH_3param_p1_R_10um:units = "unitless" ; fRH_3param_p1_R_10um:missing_data = -9999.f ; float fRH_3param_p2_R_10um(time) ; fRH_3param_p2_R_10um:long_name = "Red wavelength, three parameter curve fit, parameter 2, 10um" ; fRH_3param_p2_R_10um:units = "unitless" ; fRH_3param_p2_R_10um:missing_data = -9999.f ; float fRH_3param_p3_R_10um(time) ; fRH_3param_p3_R_10um:long_name = "Red wavelength, three parameter curve fit, parameter 3, 10um" ; fRH_3param_p3_R_10um:units = "unitless" ; fRH_3param_p3_R_10um:missing_data = -9999.f ; float fRH_85by40_2param_R_10um(time) ; fRH_85by40_2param_R_10um:long_name = "Red wavelength, fitted value of f(RH) for 85/40, two parameter fit, 10um" ; fRH_85by40_2param_R_10um:units = "unitless" ; fRH_85by40_2param_R_10um:missing_data = -9999.f ; float fRH_2param_R_10um(time, RH) ; fRH_2param_R_10um:long_name = "Red wavelength, fitted value of f(RH), two parameter fit, 10um" ; fRH_2param_R_10um:units = "unitless" ; fRH_2param_R_10um:missing_data = -9999.f ; float fRH_2param_chi_R_10um(time) ; fRH_2param_chi_R_10um:long_name = "Red wavelength, Goodness of fit parameter, two parameter fit, 10um" ; fRH_2param_chi_R_10um:units = "unitless" ; fRH_2param_chi_R_10um:missing_data = -9999.f ; float fRH_2param_p1_R_10um(time) ; fRH_2param_p1_R_10um:long_name = "Red wavelength, two parameter curve fit, parameter 1, 10um" ; fRH_2param_p1_R_10um:units = "unitless" ; fRH_2param_p1_R_10um:missing_data = -9999.f ; float fRH_2param_p2_R_10um(time) ; fRH_2param_p2_R_10um:long_name = "Red wavelength, two parameter curve fit, parameter 2, 10um" ; fRH_2param_p2_R_10um:units = "unitless" ; fRH_2param_p2_R_10um:missing_data = -9999.f ; float fRH_85by40_Bbs_R_10um(time) ; fRH_85by40_Bbs_R_10um:long_name = "Red wavelength, fitted value of f(RH) for 85/40 for bbsp, 10um" ; fRH_85by40_Bbs_R_10um:units = "unitless" ; fRH_85by40_Bbs_R_10um:missing_data = -9999.f ; float fRH_Bbs_R_10um(time, RH) ; fRH_Bbs_R_10um:long_name = "Red wavelength, fitted value of f(RH) for bbsp, 10um" ; fRH_Bbs_R_10um:units = "unitless" ; fRH_Bbs_R_10um:missing_data = -9999.f ; float fRH_Bbs_chi_R_10um(time) ; fRH_Bbs_chi_R_10um:long_name = "Red wavelength, goodness of fit, bbsp fit, 10um" ; fRH_Bbs_chi_R_10um:units = "unitless" ; fRH_Bbs_chi_R_10um:missing_data = -9999.f ; float fRH_Bbs_p1_R_10um(time) ; fRH_Bbs_p1_R_10um:long_name = "Red wavelength, parameter 1 for bbsp curve fit, 10um" ; fRH_Bbs_p1_R_10um:units = "unitless" ; fRH_Bbs_p1_R_10um:missing_data = -9999.f ; float fRH_Bbs_p2_R_10um(time) ; fRH_Bbs_p2_R_10um:long_name = "Red wavelength, parameter 2 for bbsp curve fit, 10um" ; fRH_Bbs_p2_R_10um:units = "unitless" ; fRH_Bbs_p2_R_10um:missing_data = -9999.f ; float fRH_85by40_3param_R_1um(time) ; fRH_85by40_3param_R_1um:long_name = "Red wavelength, fitted value of f(RH) for 85/40, three parameter fit, 1um" ; fRH_85by40_3param_R_1um:units = "unitless" ; fRH_85by40_3param_R_1um:missing_data = -9999.f ; float fRH_3param_R_1um(time, RH) ; fRH_3param_R_1um:long_name = "Red wavelength, fitted value of f(RH), three parameter fit, 1um" ; fRH_3param_R_1um:units = "unitless" ; fRH_3param_R_1um:missing_data = -9999.f ; float fRH_3param_chi_R_1um(time) ; fRH_3param_chi_R_1um:long_name = "Red wavelength, goodness of fit parameter, three parameter fit, 1um" ; fRH_3param_chi_R_1um:units = "unitless" ; fRH_3param_chi_R_1um:missing_data = -9999.f ; float fRH_Bs_R_1um_min(time) ; fRH_Bs_R_1um_min:long_name = "Red wavelength, minimum light scattering coefficient for wavelength reported by STP, 1um" ; fRH_Bs_R_1um_min:units = "1/Mm" ; fRH_Bs_R_1um_min:missing_data = -9999.f ; float fRH_3param_p1_R_1um(time) ; fRH_3param_p1_R_1um:long_name = "Red wavelength, three parameter curve fit, parameter 1, 1um" ; fRH_3param_p1_R_1um:units = "unitless" ; fRH_3param_p1_R_1um:missing_data = -9999.f ; float fRH_3param_p2_R_1um(time) ; fRH_3param_p2_R_1um:long_name = "Red wavelength, three parameter curve fit, parameter 2, 1um" ; fRH_3param_p2_R_1um:units = "unitless" ; fRH_3param_p2_R_1um:missing_data = -9999.f ; float fRH_3param_p3_R_1um(time) ; fRH_3param_p3_R_1um:long_name = "Red wavelength, three parameter curve fit, parameter 3, 1um" ; fRH_3param_p3_R_1um:units = "unitless" ; fRH_3param_p3_R_1um:missing_data = -9999.f ; float fRH_85by40_2param_R_1um(time) ; fRH_85by40_2param_R_1um:long_name = "Red wavelength, fitted value of f(RH) for 85/40, two parameter fit, 1um" ; fRH_85by40_2param_R_1um:units = "unitless" ; fRH_85by40_2param_R_1um:missing_data = -9999.f ; float fRH_2param_R_1um(time, RH) ; fRH_2param_R_1um:long_name = "Red wavelength, fitted value of f(RH), two parameter fit, 1um" ; fRH_2param_R_1um:units = "unitless" ; fRH_2param_R_1um:missing_data = -9999.f ; float fRH_2param_chi_R_1um(time) ; fRH_2param_chi_R_1um:long_name = "Red wavelength, Goodness of fit parameter, two parameter fit, 1um" ; fRH_2param_chi_R_1um:units = "unitless" ; fRH_2param_chi_R_1um:missing_data = -9999.f ; float fRH_2param_p1_R_1um(time) ; fRH_2param_p1_R_1um:long_name = "Red wavelength, two parameter curve fit, parameter 1, 1um" ; fRH_2param_p1_R_1um:units = "unitless" ; fRH_2param_p1_R_1um:missing_data = -9999.f ; float fRH_2param_p2_R_1um(time) ; fRH_2param_p2_R_1um:long_name = "Red wavelength, two parameter curve fit, parameter 2, 1um" ; fRH_2param_p2_R_1um:units = "unitless" ; fRH_2param_p2_R_1um:missing_data = -9999.f ; float fRH_85by40_Bbs_R_1um(time) ; fRH_85by40_Bbs_R_1um:long_name = "Red wavelength, fitted value of f(RH) for 85/40 for bbsp, 1um" ; fRH_85by40_Bbs_R_1um:units = "unitless" ; fRH_85by40_Bbs_R_1um:missing_data = -9999.f ; float fRH_Bbs_R_1um(time, RH) ; fRH_Bbs_R_1um:long_name = "Red wavelength, fitted value of f(RH) for bbsp, 1um" ; fRH_Bbs_R_1um:units = "unitless" ; fRH_Bbs_R_1um:missing_data = -9999.f ; float fRH_Bbs_chi_R_1um(time) ; fRH_Bbs_chi_R_1um:long_name = "Red wavelength, goodness of fit, bbsp fit, 1um" ; fRH_Bbs_chi_R_1um:units = "unitless" ; fRH_Bbs_chi_R_1um:missing_data = -9999.f ; float fRH_Bbs_p1_R_1um(time) ; fRH_Bbs_p1_R_1um:long_name = "Red wavelength, parameter 1 for bbsp curve fit, 1um" ; fRH_Bbs_p1_R_1um:units = "unitless" ; fRH_Bbs_p1_R_1um:missing_data = -9999.f ; float fRH_Bbs_p2_R_1um(time) ; fRH_Bbs_p2_R_1um:long_name = "Red wavelength, parameter 2 for bbsp curve fit, 1um" ; fRH_Bbs_p2_R_1um:units = "unitless" ; fRH_Bbs_p2_R_1um:missing_data = -9999.f ; float fRH_85by40_3param_G_10um(time) ; fRH_85by40_3param_G_10um:long_name = "Green wavelength, fitted value of f(RH) for 85/40, three parameter fit, 10um" ; fRH_85by40_3param_G_10um:units = "unitless" ; fRH_85by40_3param_G_10um:missing_data = -9999.f ; float fRH_3param_G_10um(time, RH) ; fRH_3param_G_10um:long_name = "Green wavelength, fitted value of f(RH), three parameter fit, 10um" ; fRH_3param_G_10um:units = "unitless" ; fRH_3param_G_10um:missing_data = -9999.f ; float fRH_3param_chi_G_10um(time) ; fRH_3param_chi_G_10um:long_name = "Green wavelength, goodness of fit parameter, three parameter fit, 10um" ; fRH_3param_chi_G_10um:units = "unitless" ; fRH_3param_chi_G_10um:missing_data = -9999.f ; float fRH_Bs_G_10um_min(time) ; fRH_Bs_G_10um_min:long_name = "Green wavelength, minimum light scattering coefficient for wavelength reported by STP, 10um" ; fRH_Bs_G_10um_min:units = "1/Mm" ; fRH_Bs_G_10um_min:missing_data = -9999.f ; float fRH_3param_p1_G_10um(time) ; fRH_3param_p1_G_10um:long_name = "Green wavelength, three parameter curve fit, parameter 1, 10um" ; fRH_3param_p1_G_10um:units = "unitless" ; fRH_3param_p1_G_10um:missing_data = -9999.f ; float fRH_3param_p2_G_10um(time) ; fRH_3param_p2_G_10um:long_name = "Green wavelength, three parameter curve fit, parameter 2, 10um" ; fRH_3param_p2_G_10um:units = "unitless" ; fRH_3param_p2_G_10um:missing_data = -9999.f ; float fRH_3param_p3_G_10um(time) ; fRH_3param_p3_G_10um:long_name = "Green wavelength, three parameter curve fit, parameter 3, 10um" ; fRH_3param_p3_G_10um:units = "unitless" ; fRH_3param_p3_G_10um:missing_data = -9999.f ; float fRH_85by40_2param_G_10um(time) ; fRH_85by40_2param_G_10um:long_name = "Green wavelength, fitted value of f(RH) for 85/40, two parameter fit, 10um" ; fRH_85by40_2param_G_10um:units = "1/Mm" ; fRH_85by40_2param_G_10um:missing_data = -9999.f ; float fRH_2param_G_10um(time, RH) ; fRH_2param_G_10um:long_name = "Green wavelength, fitted value of f(RH), two parameter fit, 10um" ; fRH_2param_G_10um:units = "1/Mm" ; fRH_2param_G_10um:missing_data = -9999.f ; float fRH_2param_chi_G_10um(time) ; fRH_2param_chi_G_10um:long_name = "Green wavelength, Goodness of fit parameter, two parameter fit, 10um" ; fRH_2param_chi_G_10um:units = "unitless" ; fRH_2param_chi_G_10um:missing_data = -9999.f ; float fRH_2param_p1_G_10um(time) ; fRH_2param_p1_G_10um:long_name = "Green wavelength, two parameter curve fit, parameter 1, 10um" ; fRH_2param_p1_G_10um:units = "unitless" ; fRH_2param_p1_G_10um:missing_data = -9999.f ; float fRH_2param_p2_G_10um(time) ; fRH_2param_p2_G_10um:long_name = "Green wavelength, two parameter curve fit, parameter 2, 10um" ; fRH_2param_p2_G_10um:units = "unitless" ; fRH_2param_p2_G_10um:missing_data = -9999.f ; float fRH_85by40_Bbs_G_10um(time) ; fRH_85by40_Bbs_G_10um:long_name = "Green wavelength, fitted value of f(RH) for 85/40 for bbsp, 10um" ; fRH_85by40_Bbs_G_10um:units = "unitless" ; fRH_85by40_Bbs_G_10um:missing_data = -9999.f ; float fRH_Bbs_G_10um(time, RH) ; fRH_Bbs_G_10um:long_name = "Green wavelength, fitted value of f(RH) for bbsp, 10um" ; fRH_Bbs_G_10um:units = "unitless" ; fRH_Bbs_G_10um:missing_data = -9999.f ; float fRH_Bbs_chi_G_10um(time) ; fRH_Bbs_chi_G_10um:long_name = "Green wavelength, goodness of fit, bbsp fit, 10um" ; fRH_Bbs_chi_G_10um:units = "unitless" ; fRH_Bbs_chi_G_10um:missing_data = -9999.f ; float fRH_Bbs_p1_G_10um(time) ; fRH_Bbs_p1_G_10um:long_name = "Green wavelength, parameter 1 for bbsp curve fit, 10um" ; fRH_Bbs_p1_G_10um:units = "unitless" ; fRH_Bbs_p1_G_10um:missing_data = -9999.f ; float fRH_Bbs_p2_G_10um(time) ; fRH_Bbs_p2_G_10um:long_name = "Green wavelength, parameter 2 for bbsp curve fit, 10um" ; fRH_Bbs_p2_G_10um:units = "unitless" ; fRH_Bbs_p2_G_10um:missing_data = -9999.f ; float fRH_85by40_3param_G_1um(time) ; fRH_85by40_3param_G_1um:long_name = "Green wavelength, fitted value of f(RH) for 85/40, three parameter fit, 1um" ; fRH_85by40_3param_G_1um:units = "unitless" ; fRH_85by40_3param_G_1um:missing_data = -9999.f ; float fRH_3param_G_1um(time, RH) ; fRH_3param_G_1um:long_name = "Green wavelength, fitted value of f(RH), three parameter fit, 1um" ; fRH_3param_G_1um:units = "unitless" ; fRH_3param_G_1um:missing_data = -9999.f ; float fRH_3param_chi_G_1um(time) ; fRH_3param_chi_G_1um:long_name = "Green wavelength, goodness of fit parameter, three parameter fit, 1um" ; fRH_3param_chi_G_1um:units = "unitless" ; fRH_3param_chi_G_1um:missing_data = -9999.f ; float fRH_Bs_G_1um_min(time) ; fRH_Bs_G_1um_min:long_name = "Green wavelength, minimum light scattering coefficient for wavelength reported by STP, 1um" ; fRH_Bs_G_1um_min:units = "1/Mm" ; fRH_Bs_G_1um_min:missing_data = -9999.f ; float fRH_3param_p1_G_1um(time) ; fRH_3param_p1_G_1um:long_name = "Green wavelength, three parameter curve fit, parameter 1, 1um" ; fRH_3param_p1_G_1um:units = "unitless" ; fRH_3param_p1_G_1um:missing_data = -9999.f ; float fRH_3param_p2_G_1um(time) ; fRH_3param_p2_G_1um:long_name = "Green wavelength, three parameter curve fit, parameter 2, 1um" ; fRH_3param_p2_G_1um:units = "unitless" ; fRH_3param_p2_G_1um:missing_data = -9999.f ; float fRH_3param_p3_G_1um(time) ; fRH_3param_p3_G_1um:long_name = "Green wavelength, three parameter curve fit, parameter 3, 1um" ; fRH_3param_p3_G_1um:units = "unitless" ; fRH_3param_p3_G_1um:missing_data = -9999.f ; float fRH_85by40_2param_G_1um(time) ; fRH_85by40_2param_G_1um:long_name = "Green wavelength, fitted value of f(RH) for 85/40, two parameter fit, 1um" ; fRH_85by40_2param_G_1um:units = "1/Mm" ; fRH_85by40_2param_G_1um:missing_data = -9999.f ; float fRH_2param_G_1um(time, RH) ; fRH_2param_G_1um:long_name = "Green wavelength, fitted value of f(RH), two parameter fit, 1um" ; fRH_2param_G_1um:units = "1/Mm" ; fRH_2param_G_1um:missing_data = -9999.f ; float fRH_2param_chi_G_1um(time) ; fRH_2param_chi_G_1um:long_name = "Green wavelength, Goodness of fit parameter, two parameter fit, 1um" ; fRH_2param_chi_G_1um:units = "unitless" ; fRH_2param_chi_G_1um:missing_data = -9999.f ; float fRH_2param_p1_G_1um(time) ; fRH_2param_p1_G_1um:long_name = "Green wavelength, two parameter curve fit, parameter 1, 1um" ; fRH_2param_p1_G_1um:units = "unitless" ; fRH_2param_p1_G_1um:missing_data = -9999.f ; float fRH_2param_p2_G_1um(time) ; fRH_2param_p2_G_1um:long_name = "Green wavelength, two parameter curve fit, parameter 2, 1um" ; fRH_2param_p2_G_1um:units = "unitless" ; fRH_2param_p2_G_1um:missing_data = -9999.f ; float fRH_85by40_Bbs_G_1um(time) ; fRH_85by40_Bbs_G_1um:long_name = "Green wavelength, fitted value of f(RH) for 85/40 for bbsp, 1um" ; fRH_85by40_Bbs_G_1um:units = "unitless" ; fRH_85by40_Bbs_G_1um:missing_data = -9999.f ; float fRH_Bbs_G_1um(time, RH) ; fRH_Bbs_G_1um:long_name = "Green wavelength, fitted value of f(RH) for bbsp, 1um" ; fRH_Bbs_G_1um:units = "unitless" ; fRH_Bbs_G_1um:missing_data = -9999.f ; float fRH_Bbs_chi_G_1um(time) ; fRH_Bbs_chi_G_1um:long_name = "Green wavelength, goodness of fit, bbsp fit, 1um" ; fRH_Bbs_chi_G_1um:units = "unitless" ; fRH_Bbs_chi_G_1um:missing_data = -9999.f ; float fRH_Bbs_p1_G_1um(time) ; fRH_Bbs_p1_G_1um:long_name = "Green wavelength, parameter 1 for bbsp curve fit, 1um" ; fRH_Bbs_p1_G_1um:units = "unitless" ; fRH_Bbs_p1_G_1um:missing_data = -9999.f ; float fRH_Bbs_p2_G_1um(time) ; fRH_Bbs_p2_G_1um:long_name = "Green wavelength, parameter 2 for bbsp curve fit, 1um" ; fRH_Bbs_p2_G_1um:units = "unitless" ; fRH_Bbs_p2_G_1um:missing_data = -9999.f ; float fRH_85by40_3param_B_10um(time) ; fRH_85by40_3param_B_10um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40, three parameter fit, 10um" ; fRH_85by40_3param_B_10um:units = "unitless" ; fRH_85by40_3param_B_10um:missing_data = -9999.f ; float fRH_3param_B_10um(time, RH) ; fRH_3param_B_10um:long_name = "Blue wavelength, fitted value of f(RH), three parameter fit, 10um" ; fRH_3param_B_10um:units = "unitless" ; fRH_3param_B_10um:missing_data = -9999.f ; float fRH_3param_chi_B_10um(time) ; fRH_3param_chi_B_10um:long_name = "Blue wavelength, goodness of fit parameter, three parameter fit, 10um" ; fRH_3param_chi_B_10um:units = "unitless" ; fRH_3param_chi_B_10um:missing_data = -9999.f ; float fRH_Bs_B_10um_min(time) ; fRH_Bs_B_10um_min:long_name = "Blue wavelength, minimum light scattering coefficient for wavelength reported by STP, 10um" ; fRH_Bs_B_10um_min:units = "1/Mm" ; fRH_Bs_B_10um_min:missing_data = -9999.f ; float fRH_3param_p1_B_10um(time) ; fRH_3param_p1_B_10um:long_name = "Blue wavelength, three parameter curve fit, parameter 1, 10um" ; fRH_3param_p1_B_10um:units = "unitless" ; fRH_3param_p1_B_10um:missing_data = -9999.f ; float fRH_3param_p2_B_10um(time) ; fRH_3param_p2_B_10um:long_name = "Blue wavelength, three parameter curve fit, parameter 2, 10um" ; fRH_3param_p2_B_10um:units = "unitless" ; fRH_3param_p2_B_10um:missing_data = -9999.f ; float fRH_3param_p3_B_10um(time) ; fRH_3param_p3_B_10um:long_name = "Blue wavelength, three parameter curve fit, parameter 3, 10um" ; fRH_3param_p3_B_10um:units = "unitless" ; fRH_3param_p3_B_10um:missing_data = -9999.f ; float fRH_85by40_2param_B_10um(time) ; fRH_85by40_2param_B_10um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40, two parameter fit, 10um" ; fRH_85by40_2param_B_10um:units = "1/Mm" ; fRH_85by40_2param_B_10um:missing_data = -9999.f ; float fRH_2param_B_10um(time, RH) ; fRH_2param_B_10um:long_name = "Blue wavelength, fitted value of f(RH), two parameter fit, 10um" ; fRH_2param_B_10um:units = "1/Mm" ; fRH_2param_B_10um:missing_data = -9999.f ; float fRH_2param_chi_B_10um(time) ; fRH_2param_chi_B_10um:long_name = "Blue wavelength, Goodness of fit parameter, two parameter fit, 10um" ; fRH_2param_chi_B_10um:units = "unitless" ; fRH_2param_chi_B_10um:missing_data = -9999.f ; float fRH_2param_p1_B_10um(time) ; fRH_2param_p1_B_10um:long_name = "Blue wavelength, two parameter curve fit, parameter 1, 10um" ; fRH_2param_p1_B_10um:units = "unitless" ; fRH_2param_p1_B_10um:missing_data = -9999.f ; float fRH_2param_p2_B_10um(time) ; fRH_2param_p2_B_10um:long_name = "Blue wavelength, two parameter curve fit, parameter 2, 10um" ; fRH_2param_p2_B_10um:units = "unitless" ; fRH_2param_p2_B_10um:missing_data = -9999.f ; float fRH_85by40_Bbs_B_10um(time) ; fRH_85by40_Bbs_B_10um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40 for bbsp, 10um" ; fRH_85by40_Bbs_B_10um:units = "unitless" ; fRH_85by40_Bbs_B_10um:missing_data = -9999.f ; float fRH_Bbs_B_10um(time, RH) ; fRH_Bbs_B_10um:long_name = "Blue wavelength, fitted value of f(RH) for bbsp, 10um" ; fRH_Bbs_B_10um:units = "unitless" ; fRH_Bbs_B_10um:missing_data = -9999.f ; float fRH_Bbs_chi_B_10um(time) ; fRH_Bbs_chi_B_10um:long_name = "Blue wavelength, goodness of fit, bbsp fit, 10um" ; fRH_Bbs_chi_B_10um:units = "unitless" ; fRH_Bbs_chi_B_10um:missing_data = -9999.f ; float fRH_Bbs_p1_B_10um(time) ; fRH_Bbs_p1_B_10um:long_name = "Blue wavelength, parameter 1 for bbsp curve fit, 10um" ; fRH_Bbs_p1_B_10um:units = "unitless" ; fRH_Bbs_p1_B_10um:missing_data = -9999.f ; float fRH_Bbs_p2_B_10um(time) ; fRH_Bbs_p2_B_10um:long_name = "Blue wavelength, parameter 2 for bbsp curve fit, 1um" ; fRH_Bbs_p2_B_10um:units = "unitless" ; fRH_Bbs_p2_B_10um:missing_data = -9999.f ; float fRH_85by40_3param_B_1um(time) ; fRH_85by40_3param_B_1um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40, three parameter fit, 1um" ; fRH_85by40_3param_B_1um:units = "unitless" ; fRH_85by40_3param_B_1um:missing_data = -9999.f ; float fRH_3param_B_1um(time, RH) ; fRH_3param_B_1um:long_name = "Blue wavelength, fitted value of f(RH), three parameter fit, 1um" ; fRH_3param_B_1um:units = "unitless" ; fRH_3param_B_1um:missing_data = -9999.f ; float fRH_3param_chi_B_1um(time) ; fRH_3param_chi_B_1um:long_name = "Blue wavelength, goodness of fit parameter, three parameter fit, 1um" ; fRH_3param_chi_B_1um:units = "unitless" ; fRH_3param_chi_B_1um:missing_data = -9999.f ; float fRH_Bs_B_1um_min(time) ; fRH_Bs_B_1um_min:long_name = "Blue wavelength, minimum light scattering coefficient for wavelength reported by STP, 1um" ; fRH_Bs_B_1um_min:units = "1/Mm" ; fRH_Bs_B_1um_min:missing_data = -9999.f ; float fRH_3param_p1_B_1um(time) ; fRH_3param_p1_B_1um:long_name = "Blue wavelength, three parameter curve fit, parameter 1, 1um" ; fRH_3param_p1_B_1um:units = "unitless" ; fRH_3param_p1_B_1um:missing_data = -9999.f ; float fRH_3param_p2_B_1um(time) ; fRH_3param_p2_B_1um:long_name = "Blue wavelength, three parameter curve fit, parameter 2, 1um" ; fRH_3param_p2_B_1um:units = "unitless" ; fRH_3param_p2_B_1um:missing_data = -9999.f ; float fRH_3param_p3_B_1um(time) ; fRH_3param_p3_B_1um:long_name = "Blue wavelength, three parameter curve fit, parameter 3, 1um" ; fRH_3param_p3_B_1um:units = "unitless" ; fRH_3param_p3_B_1um:missing_data = -9999.f ; float fRH_85by40_2param_B_1um(time) ; fRH_85by40_2param_B_1um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40, two parameter fit, 1um" ; fRH_85by40_2param_B_1um:units = "1/Mm" ; fRH_85by40_2param_B_1um:missing_data = -9999.f ; float fRH_2param_B_1um(time, RH) ; fRH_2param_B_1um:long_name = "Blue wavelength, fitted value of f(RH), two parameter fit, 1um" ; fRH_2param_B_1um:units = "1/Mm" ; fRH_2param_B_1um:missing_data = -9999.f ; float fRH_2param_chi_B_1um(time) ; fRH_2param_chi_B_1um:long_name = "Blue wavelength, Goodness of fit parameter, two parameter fit, 1um" ; fRH_2param_chi_B_1um:units = "unitless" ; fRH_2param_chi_B_1um:missing_data = -9999.f ; float fRH_2param_p1_B_1um(time) ; fRH_2param_p1_B_1um:long_name = "Blue wavelength, two parameter curve fit, parameter 1, 1um" ; fRH_2param_p1_B_1um:units = "unitless" ; fRH_2param_p1_B_1um:missing_data = -9999.f ; float fRH_2param_p2_B_1um(time) ; fRH_2param_p2_B_1um:long_name = "Blue wavelength, two parameter curve fit, parameter 2, 1um" ; fRH_2param_p2_B_1um:units = "unitless" ; fRH_2param_p2_B_1um:missing_data = -9999.f ; float fRH_85by40_Bbs_B_1um(time) ; fRH_85by40_Bbs_B_1um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40 for bbsp, 1um" ; fRH_85by40_Bbs_B_1um:units = "unitless" ; fRH_85by40_Bbs_B_1um:missing_data = -9999.f ; float fRH_Bbs_B_1um(time, RH) ; fRH_Bbs_B_1um:long_name = "Blue wavelength, fitted value of f(RH) for 85/40 for bbsp, 1um" ; fRH_Bbs_B_1um:units = "unitless" ; fRH_Bbs_B_1um:missing_data = -9999.f ; float fRH_Bbs_chi_B_1um(time) ; fRH_Bbs_chi_B_1um:long_name = "Blue wavelength, goodness of fit, bbsp fit, 1um" ; fRH_Bbs_chi_B_1um:units = "unitless" ; fRH_Bbs_chi_B_1um:missing_data = -9999.f ; float fRH_Bbs_p1_B_1um(time) ; fRH_Bbs_p1_B_1um:long_name = "Blue wavelength, parameter 1 for bbsp curve fit, 1um" ; fRH_Bbs_p1_B_1um:units = "unitless" ; fRH_Bbs_p1_B_1um:missing_data = -9999.f ; float fRH_Bbs_p2_B_1um(time) ; fRH_Bbs_p2_B_1um:long_name = "Blue wavelength, parameter 2 for bbsp curve fit, 1um" ; fRH_Bbs_p2_B_1um:units = "unitless" ; fRH_Bbs_p2_B_1um:missing_data = -9999.f ; float RH(RH) ; RH:long_name = "RH values for applied f(RH)" ; RH:units = "percent" ; RH:missing_data = -9999.f ; 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: :process_version = "$State: ingest-cmdlaos-9.10-0.sol5_10 $" ; :command_line = "cmdlaos_ingest -i 20081228 -f hfe" ; :Title = "NOAA/CMDL AOS (mentor-edited) data, collected at ARM Mobile Facility, Shouxian, Anhui Province, China" ; :Comment1 = "Curve fitting parameters for scattering vs RH in the red, green and blue channel" ; :Comment2 = "Read from data supplied by NOAA/CMDL: f(RH) files for each Red, Green and Blue channel." ; :Comment3 = "The 2 parameter fit is more commonly used, however the 3 parameter fit appears to work better with deliquescent-type aerosols." ; :Equation_2_param_fit = "bsp(RH%)/Bsp(~40%) = a*[1-(RH%/100)]^(-b)" ; :Equation_3_param_fit = "bsp(RH%)/Bsp(~40%) = a*[1+b(RH%/100)]^(-c)" ; :sample_int = "1 second" ; :averaging_int = "60 seconds" ; :Comment4 = "Hourly averages computed from 1-minute data" ; :site_id = "hfe" ; :facility_id = "M1" ; :zeb_platform = "hfenoaaaosfitrhM1.b1" ; :history = "created by user dsmgr on machine reproc1 at 21-Jul-2009,17:55:13, using $State: ds-zebra-zeblib-4.16-0 $" ; }