netcdf nsaaipfitrh1ogrenX1.s1.20131014.000000 { dimensions: time = UNLIMITED ; // (24 currently) param3 = 3 ; param2 = 2 ; variables: int base_time ; base_time:string = "2013-10-14 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" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2013-10-14 00:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2013-10-14 00:00:00 0:00" ; float ratio_85by40_Bs_R_10um_3p(time) ; ratio_85by40_Bs_R_10um_3p:long_name = "Computed ratio of Bs_R_10um at RH 85% and RH 40% for 3 parameter fit" ; ratio_85by40_Bs_R_10um_3p:units = "unitless" ; ratio_85by40_Bs_R_10um_3p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_R_10um_3p(time) ; qc_ratio_85by40_Bs_R_10um_3p:long_name = "Quality check results on field: Computed ratio of Bs_R_10um at RH 85% and RH 40% for 3 parameter fit" ; qc_ratio_85by40_Bs_R_10um_3p:units = "unitless" ; qc_ratio_85by40_Bs_R_10um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_R_10um_3p:flag_method = "bit" ; float fRH_Bs_R_10um_3p(time, param3) ; fRH_Bs_R_10um_3p:long_name = "Coefficients for 3 parameter fit of Bs_R_10um hygroscopic growth as a function of RH" ; fRH_Bs_R_10um_3p:units = "unitless" ; fRH_Bs_R_10um_3p:missing_value = -9999.f ; int qc_fRH_Bs_R_10um_3p(time) ; qc_fRH_Bs_R_10um_3p:long_name = "Quality check results on field: Coefficients for 3 parameter fit of Bs_R_10um hygroscopic growth as a function of RH" ; qc_fRH_Bs_R_10um_3p:units = "unitless" ; qc_fRH_Bs_R_10um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_R_10um_3p:flag_method = "bit" ; float fRH_Bs_R_10um_3p_r_square(time) ; fRH_Bs_R_10um_3p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_R_10um_3p" ; fRH_Bs_R_10um_3p_r_square:units = "unitless" ; fRH_Bs_R_10um_3p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_R_10um_3p_r_square:missing_value = -9999.f ; int fRH_Bs_R_10um_3p_n(time) ; fRH_Bs_R_10um_3p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_R_10um_3p" ; fRH_Bs_R_10um_3p_n:units = "unitless" ; fRH_Bs_R_10um_3p_n:missing_value = -9999 ; float ratio_85by40_Bs_R_10um_2p(time) ; ratio_85by40_Bs_R_10um_2p:long_name = "Computed ratio of Bs_R_10um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bs_R_10um_2p:units = "unitless" ; ratio_85by40_Bs_R_10um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_R_10um_2p(time) ; qc_ratio_85by40_Bs_R_10um_2p:long_name = "Quality check results on field: Computed ratio of Bs_R_10um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bs_R_10um_2p:units = "unitless" ; qc_ratio_85by40_Bs_R_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_R_10um_2p:flag_method = "bit" ; float fRH_Bs_R_10um_2p(time, param2) ; fRH_Bs_R_10um_2p:long_name = "Coefficients for 2 parameter fit of Bs_R_10um hygroscopic growth as a function of RH" ; fRH_Bs_R_10um_2p:units = "unitless" ; fRH_Bs_R_10um_2p:missing_value = -9999.f ; int qc_fRH_Bs_R_10um_2p(time) ; qc_fRH_Bs_R_10um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bs_R_10um hygroscopic growth as a function of RH" ; qc_fRH_Bs_R_10um_2p:units = "unitless" ; qc_fRH_Bs_R_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_R_10um_2p:flag_method = "bit" ; float fRH_Bs_R_10um_2p_r_square(time) ; fRH_Bs_R_10um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_R_10um_2p" ; fRH_Bs_R_10um_2p_r_square:units = "unitless" ; fRH_Bs_R_10um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_R_10um_2p_r_square:missing_value = -9999.f ; int fRH_Bs_R_10um_2p_n(time) ; fRH_Bs_R_10um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_R_10um_2p" ; fRH_Bs_R_10um_2p_n:units = "unitless" ; fRH_Bs_R_10um_2p_n:missing_value = -9999 ; float ratio_85by40_Bs_G_10um_3p(time) ; ratio_85by40_Bs_G_10um_3p:long_name = "Computed ratio of Bs_G_10um at RH 85% and RH 40% for 3 parameter fit" ; ratio_85by40_Bs_G_10um_3p:units = "unitless" ; ratio_85by40_Bs_G_10um_3p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_G_10um_3p(time) ; qc_ratio_85by40_Bs_G_10um_3p:long_name = "Quality check results on field: Computed ratio of Bs_G_10um at RH 85% and RH 40% for 3 parameter fit" ; qc_ratio_85by40_Bs_G_10um_3p:units = "unitless" ; qc_ratio_85by40_Bs_G_10um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_G_10um_3p:flag_method = "bit" ; float fRH_Bs_G_10um_3p(time, param3) ; fRH_Bs_G_10um_3p:long_name = "Coefficients for 3 parameter fit of Bs_G_10um hygroscopic growth as a function of RH" ; fRH_Bs_G_10um_3p:units = "unitless" ; fRH_Bs_G_10um_3p:missing_value = -9999.f ; int qc_fRH_Bs_G_10um_3p(time) ; qc_fRH_Bs_G_10um_3p:long_name = "Quality check results on field: Coefficients for 3 parameter fit of Bs_G_10um hygroscopic growth as a function of RH" ; qc_fRH_Bs_G_10um_3p:units = "unitless" ; qc_fRH_Bs_G_10um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_G_10um_3p:flag_method = "bit" ; float fRH_Bs_G_10um_3p_r_square(time) ; fRH_Bs_G_10um_3p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_G_10um_3p" ; fRH_Bs_G_10um_3p_r_square:units = "unitless" ; fRH_Bs_G_10um_3p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_G_10um_3p_r_square:missing_value = -9999.f ; int fRH_Bs_G_10um_3p_n(time) ; fRH_Bs_G_10um_3p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_G_10um_3p" ; fRH_Bs_G_10um_3p_n:units = "unitless" ; fRH_Bs_G_10um_3p_n:missing_value = -9999 ; float ratio_85by40_Bs_G_10um_2p(time) ; ratio_85by40_Bs_G_10um_2p:long_name = "Computed ratio of Bs_G_10um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bs_G_10um_2p:units = "unitless" ; ratio_85by40_Bs_G_10um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_G_10um_2p(time) ; qc_ratio_85by40_Bs_G_10um_2p:long_name = "Quality check results on field: Computed ratio of Bs_G_10um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bs_G_10um_2p:units = "unitless" ; qc_ratio_85by40_Bs_G_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_G_10um_2p:flag_method = "bit" ; float fRH_Bs_G_10um_2p(time, param2) ; fRH_Bs_G_10um_2p:long_name = "Coefficients for 2 parameter fit of Bs_G_10um hygroscopic growth as a function of RH" ; fRH_Bs_G_10um_2p:units = "unitless" ; fRH_Bs_G_10um_2p:missing_value = -9999.f ; int qc_fRH_Bs_G_10um_2p(time) ; qc_fRH_Bs_G_10um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bs_G_10um hygroscopic growth as a function of RH" ; qc_fRH_Bs_G_10um_2p:units = "unitless" ; qc_fRH_Bs_G_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_G_10um_2p:flag_method = "bit" ; float fRH_Bs_G_10um_2p_r_square(time) ; fRH_Bs_G_10um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_G_10um_2p" ; fRH_Bs_G_10um_2p_r_square:units = "unitless" ; fRH_Bs_G_10um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_G_10um_2p_r_square:missing_value = -9999.f ; int fRH_Bs_G_10um_2p_n(time) ; fRH_Bs_G_10um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_G_10um_2p" ; fRH_Bs_G_10um_2p_n:units = "unitless" ; fRH_Bs_G_10um_2p_n:missing_value = -9999 ; float ratio_85by40_Bs_B_10um_3p(time) ; ratio_85by40_Bs_B_10um_3p:long_name = "Computed ratio of Bs_B_10um at RH 85% and RH 40% for 3 parameter fit" ; ratio_85by40_Bs_B_10um_3p:units = "unitless" ; ratio_85by40_Bs_B_10um_3p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_B_10um_3p(time) ; qc_ratio_85by40_Bs_B_10um_3p:long_name = "Quality check results on field: Computed ratio of Bs_B_10um at RH 85% and RH 40% for 3 parameter fit" ; qc_ratio_85by40_Bs_B_10um_3p:units = "unitless" ; qc_ratio_85by40_Bs_B_10um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_B_10um_3p:flag_method = "bit" ; float fRH_Bs_B_10um_3p(time, param3) ; fRH_Bs_B_10um_3p:long_name = "Coefficients for 3 parameter fit of Bs_B_10um hygroscopic growth as a function of RH" ; fRH_Bs_B_10um_3p:units = "unitless" ; fRH_Bs_B_10um_3p:missing_value = -9999.f ; int qc_fRH_Bs_B_10um_3p(time) ; qc_fRH_Bs_B_10um_3p:long_name = "Quality check results on field: Coefficients for 3 parameter fit of Bs_B_10um hygroscopic growth as a function of RH" ; qc_fRH_Bs_B_10um_3p:units = "unitless" ; qc_fRH_Bs_B_10um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_B_10um_3p:flag_method = "bit" ; float fRH_Bs_B_10um_3p_r_square(time) ; fRH_Bs_B_10um_3p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_B_10um_3p" ; fRH_Bs_B_10um_3p_r_square:units = "unitless" ; fRH_Bs_B_10um_3p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_B_10um_3p_r_square:missing_value = -9999.f ; int fRH_Bs_B_10um_3p_n(time) ; fRH_Bs_B_10um_3p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_B_10um_3p" ; fRH_Bs_B_10um_3p_n:units = "unitless" ; fRH_Bs_B_10um_3p_n:missing_value = -9999 ; float ratio_85by40_Bs_B_10um_2p(time) ; ratio_85by40_Bs_B_10um_2p:long_name = "Computed ratio of Bs_B_10um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bs_B_10um_2p:units = "unitless" ; ratio_85by40_Bs_B_10um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_B_10um_2p(time) ; qc_ratio_85by40_Bs_B_10um_2p:long_name = "Quality check results on field: Computed ratio of Bs_B_10um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bs_B_10um_2p:units = "unitless" ; qc_ratio_85by40_Bs_B_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_B_10um_2p:flag_method = "bit" ; float fRH_Bs_B_10um_2p(time, param2) ; fRH_Bs_B_10um_2p:long_name = "Coefficients for 2 parameter fit of Bs_B_10um hygroscopic growth as a function of RH" ; fRH_Bs_B_10um_2p:units = "unitless" ; fRH_Bs_B_10um_2p:missing_value = -9999.f ; int qc_fRH_Bs_B_10um_2p(time) ; qc_fRH_Bs_B_10um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bs_B_10um hygroscopic growth as a function of RH" ; qc_fRH_Bs_B_10um_2p:units = "unitless" ; qc_fRH_Bs_B_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_B_10um_2p:flag_method = "bit" ; float fRH_Bs_B_10um_2p_r_square(time) ; fRH_Bs_B_10um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_B_10um_2p" ; fRH_Bs_B_10um_2p_r_square:units = "unitless" ; fRH_Bs_B_10um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_B_10um_2p_r_square:missing_value = -9999.f ; int fRH_Bs_B_10um_2p_n(time) ; fRH_Bs_B_10um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_B_10um_2p" ; fRH_Bs_B_10um_2p_n:units = "unitless" ; fRH_Bs_B_10um_2p_n:missing_value = -9999 ; float ratio_85by40_Bs_R_1um_3p(time) ; ratio_85by40_Bs_R_1um_3p:long_name = "Computed ratio of Bs_R_1um at RH 85% and RH 40% for 3 parameter fit" ; ratio_85by40_Bs_R_1um_3p:units = "unitless" ; ratio_85by40_Bs_R_1um_3p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_R_1um_3p(time) ; qc_ratio_85by40_Bs_R_1um_3p:long_name = "Quality check results on field: Computed ratio of Bs_R_1um at RH 85% and RH 40% for 3 parameter fit" ; qc_ratio_85by40_Bs_R_1um_3p:units = "unitless" ; qc_ratio_85by40_Bs_R_1um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_R_1um_3p:flag_method = "bit" ; float fRH_Bs_R_1um_3p(time, param3) ; fRH_Bs_R_1um_3p:long_name = "Coefficients for 3 parameter fit of Bs_R_1um hygroscopic growth as a function of RH" ; fRH_Bs_R_1um_3p:units = "unitless" ; fRH_Bs_R_1um_3p:missing_value = -9999.f ; int qc_fRH_Bs_R_1um_3p(time) ; qc_fRH_Bs_R_1um_3p:long_name = "Quality check results on field: Coefficients for 3 parameter fit of Bs_R_1um hygroscopic growth as a function of RH" ; qc_fRH_Bs_R_1um_3p:units = "unitless" ; qc_fRH_Bs_R_1um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_R_1um_3p:flag_method = "bit" ; float fRH_Bs_R_1um_3p_r_square(time) ; fRH_Bs_R_1um_3p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_R_1um_3p" ; fRH_Bs_R_1um_3p_r_square:units = "unitless" ; fRH_Bs_R_1um_3p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_R_1um_3p_r_square:missing_value = -9999.f ; int fRH_Bs_R_1um_3p_n(time) ; fRH_Bs_R_1um_3p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_R_1um_3p" ; fRH_Bs_R_1um_3p_n:units = "unitless" ; fRH_Bs_R_1um_3p_n:missing_value = -9999 ; float ratio_85by40_Bs_R_1um_2p(time) ; ratio_85by40_Bs_R_1um_2p:long_name = "Computed ratio of Bs_R_1um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bs_R_1um_2p:units = "unitless" ; ratio_85by40_Bs_R_1um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_R_1um_2p(time) ; qc_ratio_85by40_Bs_R_1um_2p:long_name = "Quality check results on field: Computed ratio of Bs_R_1um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bs_R_1um_2p:units = "unitless" ; qc_ratio_85by40_Bs_R_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_R_1um_2p:flag_method = "bit" ; float fRH_Bs_R_1um_2p(time, param2) ; fRH_Bs_R_1um_2p:long_name = "Coefficients for 2 parameter fit of Bs_R_1um hygroscopic growth as a function of RH" ; fRH_Bs_R_1um_2p:units = "unitless" ; fRH_Bs_R_1um_2p:missing_value = -9999.f ; int qc_fRH_Bs_R_1um_2p(time) ; qc_fRH_Bs_R_1um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bs_R_1um hygroscopic growth as a function of RH" ; qc_fRH_Bs_R_1um_2p:units = "unitless" ; qc_fRH_Bs_R_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_R_1um_2p:flag_method = "bit" ; float fRH_Bs_R_1um_2p_r_square(time) ; fRH_Bs_R_1um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_R_1um_2p" ; fRH_Bs_R_1um_2p_r_square:units = "unitless" ; fRH_Bs_R_1um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_R_1um_2p_r_square:missing_value = -9999.f ; int fRH_Bs_R_1um_2p_n(time) ; fRH_Bs_R_1um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_R_1um_2p" ; fRH_Bs_R_1um_2p_n:units = "unitless" ; fRH_Bs_R_1um_2p_n:missing_value = -9999 ; float ratio_85by40_Bs_G_1um_3p(time) ; ratio_85by40_Bs_G_1um_3p:long_name = "Computed ratio of Bs_G_1um at RH 85% and RH 40% for 3 parameter fit" ; ratio_85by40_Bs_G_1um_3p:units = "unitless" ; ratio_85by40_Bs_G_1um_3p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_G_1um_3p(time) ; qc_ratio_85by40_Bs_G_1um_3p:long_name = "Quality check results on field: Computed ratio of Bs_G_1um at RH 85% and RH 40% for 3 parameter fit" ; qc_ratio_85by40_Bs_G_1um_3p:units = "unitless" ; qc_ratio_85by40_Bs_G_1um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_G_1um_3p:flag_method = "bit" ; float fRH_Bs_G_1um_3p(time, param3) ; fRH_Bs_G_1um_3p:long_name = "Coefficients for 3 parameter fit of Bs_G_1um hygroscopic growth as a function of RH" ; fRH_Bs_G_1um_3p:units = "unitless" ; fRH_Bs_G_1um_3p:missing_value = -9999.f ; int qc_fRH_Bs_G_1um_3p(time) ; qc_fRH_Bs_G_1um_3p:long_name = "Quality check results on field: Coefficients for 3 parameter fit of Bs_G_1um hygroscopic growth as a function of RH" ; qc_fRH_Bs_G_1um_3p:units = "unitless" ; qc_fRH_Bs_G_1um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_G_1um_3p:flag_method = "bit" ; float fRH_Bs_G_1um_3p_r_square(time) ; fRH_Bs_G_1um_3p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_G_1um_3p" ; fRH_Bs_G_1um_3p_r_square:units = "unitless" ; fRH_Bs_G_1um_3p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_G_1um_3p_r_square:missing_value = -9999.f ; int fRH_Bs_G_1um_3p_n(time) ; fRH_Bs_G_1um_3p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_G_1um_3p" ; fRH_Bs_G_1um_3p_n:units = "unitless" ; fRH_Bs_G_1um_3p_n:missing_value = -9999 ; float ratio_85by40_Bs_G_1um_2p(time) ; ratio_85by40_Bs_G_1um_2p:long_name = "Computed ratio of Bs_G_1um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bs_G_1um_2p:units = "unitless" ; ratio_85by40_Bs_G_1um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_G_1um_2p(time) ; qc_ratio_85by40_Bs_G_1um_2p:long_name = "Quality check results on field: Computed ratio of Bs_G_1um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bs_G_1um_2p:units = "unitless" ; qc_ratio_85by40_Bs_G_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_G_1um_2p:flag_method = "bit" ; float fRH_Bs_G_1um_2p(time, param2) ; fRH_Bs_G_1um_2p:long_name = "Coefficients for 2 parameter fit of Bs_G_1um hygroscopic growth as a function of RH" ; fRH_Bs_G_1um_2p:units = "unitless" ; fRH_Bs_G_1um_2p:missing_value = -9999.f ; int qc_fRH_Bs_G_1um_2p(time) ; qc_fRH_Bs_G_1um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bs_G_1um hygroscopic growth as a function of RH" ; qc_fRH_Bs_G_1um_2p:units = "unitless" ; qc_fRH_Bs_G_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_G_1um_2p:flag_method = "bit" ; float fRH_Bs_G_1um_2p_r_square(time) ; fRH_Bs_G_1um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_G_1um_2p" ; fRH_Bs_G_1um_2p_r_square:units = "unitless" ; fRH_Bs_G_1um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_G_1um_2p_r_square:missing_value = -9999.f ; int fRH_Bs_G_1um_2p_n(time) ; fRH_Bs_G_1um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_G_1um_2p" ; fRH_Bs_G_1um_2p_n:units = "unitless" ; fRH_Bs_G_1um_2p_n:missing_value = -9999 ; float ratio_85by40_Bs_B_1um_3p(time) ; ratio_85by40_Bs_B_1um_3p:long_name = "Computed ratio of Bs_B_1um at RH 85% and RH 40% for 3 parameter fit" ; ratio_85by40_Bs_B_1um_3p:units = "unitless" ; ratio_85by40_Bs_B_1um_3p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_B_1um_3p(time) ; qc_ratio_85by40_Bs_B_1um_3p:long_name = "Quality check results on field: Computed ratio of Bs_B_1um at RH 85% and RH 40% for 3 parameter fit" ; qc_ratio_85by40_Bs_B_1um_3p:units = "unitless" ; qc_ratio_85by40_Bs_B_1um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_B_1um_3p:flag_method = "bit" ; float fRH_Bs_B_1um_3p(time, param3) ; fRH_Bs_B_1um_3p:long_name = "Coefficients for 3 parameter fit of Bs_B_1um hygroscopic growth as a function of RH" ; fRH_Bs_B_1um_3p:units = "unitless" ; fRH_Bs_B_1um_3p:missing_value = -9999.f ; int qc_fRH_Bs_B_1um_3p(time) ; qc_fRH_Bs_B_1um_3p:long_name = "Quality check results on field: Coefficients for 3 parameter fit of Bs_B_1um hygroscopic growth as a function of RH" ; qc_fRH_Bs_B_1um_3p:units = "unitless" ; qc_fRH_Bs_B_1um_3p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_B_1um_3p:flag_method = "bit" ; float fRH_Bs_B_1um_3p_r_square(time) ; fRH_Bs_B_1um_3p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_B_1um_3p" ; fRH_Bs_B_1um_3p_r_square:units = "unitless" ; fRH_Bs_B_1um_3p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_B_1um_3p_r_square:missing_value = -9999.f ; int fRH_Bs_B_1um_3p_n(time) ; fRH_Bs_B_1um_3p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_B_1um_3p" ; fRH_Bs_B_1um_3p_n:units = "unitless" ; fRH_Bs_B_1um_3p_n:missing_value = -9999 ; float ratio_85by40_Bs_B_1um_2p(time) ; ratio_85by40_Bs_B_1um_2p:long_name = "Computed ratio of Bs_B_1um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bs_B_1um_2p:units = "unitless" ; ratio_85by40_Bs_B_1um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bs_B_1um_2p(time) ; qc_ratio_85by40_Bs_B_1um_2p:long_name = "Quality check results on field: Computed ratio of Bs_B_1um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bs_B_1um_2p:units = "unitless" ; qc_ratio_85by40_Bs_B_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bs_B_1um_2p:flag_method = "bit" ; float fRH_Bs_B_1um_2p(time, param2) ; fRH_Bs_B_1um_2p:long_name = "Coefficients for 2 parameter fit of Bs_B_1um hygroscopic growth as a function of RH" ; fRH_Bs_B_1um_2p:units = "unitless" ; fRH_Bs_B_1um_2p:missing_value = -9999.f ; int qc_fRH_Bs_B_1um_2p(time) ; qc_fRH_Bs_B_1um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bs_B_1um hygroscopic growth as a function of RH" ; qc_fRH_Bs_B_1um_2p:units = "unitless" ; qc_fRH_Bs_B_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bs_B_1um_2p:flag_method = "bit" ; float fRH_Bs_B_1um_2p_r_square(time) ; fRH_Bs_B_1um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bs_B_1um_2p" ; fRH_Bs_B_1um_2p_r_square:units = "unitless" ; fRH_Bs_B_1um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bs_B_1um_2p_r_square:missing_value = -9999.f ; int fRH_Bs_B_1um_2p_n(time) ; fRH_Bs_B_1um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bs_B_1um_2p" ; fRH_Bs_B_1um_2p_n:units = "unitless" ; fRH_Bs_B_1um_2p_n:missing_value = -9999 ; float ratio_85by40_Bbs_R_10um_2p(time) ; ratio_85by40_Bbs_R_10um_2p:long_name = "Computed ratio of Bbs_R_10um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bbs_R_10um_2p:units = "unitless" ; ratio_85by40_Bbs_R_10um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bbs_R_10um_2p(time) ; qc_ratio_85by40_Bbs_R_10um_2p:long_name = "Quality check results on field: Computed ratio of Bbs_R_10um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bbs_R_10um_2p:units = "unitless" ; qc_ratio_85by40_Bbs_R_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bbs_R_10um_2p:flag_method = "bit" ; float fRH_Bbs_R_10um_2p(time, param2) ; fRH_Bbs_R_10um_2p:long_name = "Coefficients for 2 parameter fit of Bbs_R_10um hygroscopic growth as a function of RH" ; fRH_Bbs_R_10um_2p:units = "unitless" ; fRH_Bbs_R_10um_2p:missing_value = -9999.f ; int qc_fRH_Bbs_R_10um_2p(time) ; qc_fRH_Bbs_R_10um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bbs_R_10um hygroscopic growth as a function of RH" ; qc_fRH_Bbs_R_10um_2p:units = "unitless" ; qc_fRH_Bbs_R_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bbs_R_10um_2p:flag_method = "bit" ; float fRH_Bbs_R_10um_2p_r_square(time) ; fRH_Bbs_R_10um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bbs_R_10um_2p" ; fRH_Bbs_R_10um_2p_r_square:units = "unitless" ; fRH_Bbs_R_10um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bbs_R_10um_2p_r_square:missing_value = -9999.f ; int fRH_Bbs_R_10um_2p_n(time) ; fRH_Bbs_R_10um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bbs_R_10um_2p" ; fRH_Bbs_R_10um_2p_n:units = "unitless" ; fRH_Bbs_R_10um_2p_n:missing_value = -9999 ; float ratio_85by40_Bbs_G_10um_2p(time) ; ratio_85by40_Bbs_G_10um_2p:long_name = "Computed ratio of Bbs_G_10um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bbs_G_10um_2p:units = "unitless" ; ratio_85by40_Bbs_G_10um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bbs_G_10um_2p(time) ; qc_ratio_85by40_Bbs_G_10um_2p:long_name = "Quality check results on field: Computed ratio of Bbs_G_10um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bbs_G_10um_2p:units = "unitless" ; qc_ratio_85by40_Bbs_G_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bbs_G_10um_2p:flag_method = "bit" ; float fRH_Bbs_G_10um_2p(time, param2) ; fRH_Bbs_G_10um_2p:long_name = "Coefficients for 2 parameter fit of Bbs_G_10um hygroscopic growth as a function of RH" ; fRH_Bbs_G_10um_2p:units = "unitless" ; fRH_Bbs_G_10um_2p:missing_value = -9999.f ; int qc_fRH_Bbs_G_10um_2p(time) ; qc_fRH_Bbs_G_10um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bbs_G_10um hygroscopic growth as a function of RH" ; qc_fRH_Bbs_G_10um_2p:units = "unitless" ; qc_fRH_Bbs_G_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bbs_G_10um_2p:flag_method = "bit" ; float fRH_Bbs_G_10um_2p_r_square(time) ; fRH_Bbs_G_10um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bbs_G_10um_2p" ; fRH_Bbs_G_10um_2p_r_square:units = "unitless" ; fRH_Bbs_G_10um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bbs_G_10um_2p_r_square:missing_value = -9999.f ; int fRH_Bbs_G_10um_2p_n(time) ; fRH_Bbs_G_10um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bbs_G_10um_2p" ; fRH_Bbs_G_10um_2p_n:units = "unitless" ; fRH_Bbs_G_10um_2p_n:missing_value = -9999 ; float ratio_85by40_Bbs_B_10um_2p(time) ; ratio_85by40_Bbs_B_10um_2p:long_name = "Computed ratio of Bbs_B_10um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bbs_B_10um_2p:units = "unitless" ; ratio_85by40_Bbs_B_10um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bbs_B_10um_2p(time) ; qc_ratio_85by40_Bbs_B_10um_2p:long_name = "Quality check results on field: Computed ratio of Bbs_B_10um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bbs_B_10um_2p:units = "unitless" ; qc_ratio_85by40_Bbs_B_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bbs_B_10um_2p:flag_method = "bit" ; float fRH_Bbs_B_10um_2p(time, param2) ; fRH_Bbs_B_10um_2p:long_name = "Coefficients for 2 parameter fit of Bbs_B_10um hygroscopic growth as a function of RH" ; fRH_Bbs_B_10um_2p:units = "unitless" ; fRH_Bbs_B_10um_2p:missing_value = -9999.f ; int qc_fRH_Bbs_B_10um_2p(time) ; qc_fRH_Bbs_B_10um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bbs_B_10um hygroscopic growth as a function of RH" ; qc_fRH_Bbs_B_10um_2p:units = "unitless" ; qc_fRH_Bbs_B_10um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bbs_B_10um_2p:flag_method = "bit" ; float fRH_Bbs_B_10um_2p_r_square(time) ; fRH_Bbs_B_10um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bbs_B_10um_2p" ; fRH_Bbs_B_10um_2p_r_square:units = "unitless" ; fRH_Bbs_B_10um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bbs_B_10um_2p_r_square:missing_value = -9999.f ; int fRH_Bbs_B_10um_2p_n(time) ; fRH_Bbs_B_10um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bbs_B_10um_2p" ; fRH_Bbs_B_10um_2p_n:units = "unitless" ; fRH_Bbs_B_10um_2p_n:missing_value = -9999 ; float ratio_85by40_Bbs_R_1um_2p(time) ; ratio_85by40_Bbs_R_1um_2p:long_name = "Computed ratio of Bbs_R_1um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bbs_R_1um_2p:units = "unitless" ; ratio_85by40_Bbs_R_1um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bbs_R_1um_2p(time) ; qc_ratio_85by40_Bbs_R_1um_2p:long_name = "Quality check results on field: Computed ratio of Bbs_R_1um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bbs_R_1um_2p:units = "unitless" ; qc_ratio_85by40_Bbs_R_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bbs_R_1um_2p:flag_method = "bit" ; float fRH_Bbs_R_1um_2p(time, param2) ; fRH_Bbs_R_1um_2p:long_name = "Coefficients for 2 parameter fit of Bbs_R_1um hygroscopic growth as a function of RH" ; fRH_Bbs_R_1um_2p:units = "unitless" ; fRH_Bbs_R_1um_2p:missing_value = -9999.f ; int qc_fRH_Bbs_R_1um_2p(time) ; qc_fRH_Bbs_R_1um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bbs_R_1um hygroscopic growth as a function of RH" ; qc_fRH_Bbs_R_1um_2p:units = "unitless" ; qc_fRH_Bbs_R_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bbs_R_1um_2p:flag_method = "bit" ; float fRH_Bbs_R_1um_2p_r_square(time) ; fRH_Bbs_R_1um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bbs_R_1um_2p" ; fRH_Bbs_R_1um_2p_r_square:units = "unitless" ; fRH_Bbs_R_1um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bbs_R_1um_2p_r_square:missing_value = -9999.f ; int fRH_Bbs_R_1um_2p_n(time) ; fRH_Bbs_R_1um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bbs_R_1um_2p" ; fRH_Bbs_R_1um_2p_n:units = "unitless" ; fRH_Bbs_R_1um_2p_n:missing_value = -9999 ; float ratio_85by40_Bbs_G_1um_2p(time) ; ratio_85by40_Bbs_G_1um_2p:long_name = "Computed ratio of Bbs_G_1um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bbs_G_1um_2p:units = "unitless" ; ratio_85by40_Bbs_G_1um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bbs_G_1um_2p(time) ; qc_ratio_85by40_Bbs_G_1um_2p:long_name = "Quality check results on field: Computed ratio of Bbs_G_1um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bbs_G_1um_2p:units = "unitless" ; qc_ratio_85by40_Bbs_G_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bbs_G_1um_2p:flag_method = "bit" ; float fRH_Bbs_G_1um_2p(time, param2) ; fRH_Bbs_G_1um_2p:long_name = "Coefficients for 2 parameter fit of Bbs_G_1um hygroscopic growth as a function of RH" ; fRH_Bbs_G_1um_2p:units = "unitless" ; fRH_Bbs_G_1um_2p:missing_value = -9999.f ; int qc_fRH_Bbs_G_1um_2p(time) ; qc_fRH_Bbs_G_1um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bbs_G_1um hygroscopic growth as a function of RH" ; qc_fRH_Bbs_G_1um_2p:units = "unitless" ; qc_fRH_Bbs_G_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bbs_G_1um_2p:flag_method = "bit" ; float fRH_Bbs_G_1um_2p_r_square(time) ; fRH_Bbs_G_1um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bbs_G_1um_2p" ; fRH_Bbs_G_1um_2p_r_square:units = "unitless" ; fRH_Bbs_G_1um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bbs_G_1um_2p_r_square:missing_value = -9999.f ; int fRH_Bbs_G_1um_2p_n(time) ; fRH_Bbs_G_1um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bbs_G_1um_2p" ; fRH_Bbs_G_1um_2p_n:units = "unitless" ; fRH_Bbs_G_1um_2p_n:missing_value = -9999 ; float ratio_85by40_Bbs_B_1um_2p(time) ; ratio_85by40_Bbs_B_1um_2p:long_name = "Computed ratio of Bbs_B_1um at RH 85% and RH 40% for 2 parameter fit" ; ratio_85by40_Bbs_B_1um_2p:units = "unitless" ; ratio_85by40_Bbs_B_1um_2p:missing_value = -9999.f ; int qc_ratio_85by40_Bbs_B_1um_2p(time) ; qc_ratio_85by40_Bbs_B_1um_2p:long_name = "Quality check results on field: Computed ratio of Bbs_B_1um at RH 85% and RH 40% for 2 parameter fit" ; qc_ratio_85by40_Bbs_B_1um_2p:units = "unitless" ; qc_ratio_85by40_Bbs_B_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_ratio_85by40_Bbs_B_1um_2p:flag_method = "bit" ; float fRH_Bbs_B_1um_2p(time, param2) ; fRH_Bbs_B_1um_2p:long_name = "Coefficients for 2 parameter fit of Bbs_B_1um hygroscopic growth as a function of RH" ; fRH_Bbs_B_1um_2p:units = "unitless" ; fRH_Bbs_B_1um_2p:missing_value = -9999.f ; int qc_fRH_Bbs_B_1um_2p(time) ; qc_fRH_Bbs_B_1um_2p:long_name = "Quality check results on field: Coefficients for 2 parameter fit of Bbs_B_1um hygroscopic growth as a function of RH" ; qc_fRH_Bbs_B_1um_2p:units = "unitless" ; qc_fRH_Bbs_B_1um_2p:description = "This field contains qc values which should be interpreted as listed:\n", "0 = Good: Data exists and passed all qc tests.\n", "1 = Indeterminate: Data may be bad, further analysis recommended.\n", "2 = Bad: Data has a bad value.\n", "3 = Missing: Data is missing." ; qc_fRH_Bbs_B_1um_2p:flag_method = "bit" ; float fRH_Bbs_B_1um_2p_r_square(time) ; fRH_Bbs_B_1um_2p_r_square:long_name = "R-squared computation for hygroscopicity fit for fRH_Bbs_B_1um_2p" ; fRH_Bbs_B_1um_2p_r_square:units = "unitless" ; fRH_Bbs_B_1um_2p_r_square:comment = "A good fit will have r-squared close to 1" ; fRH_Bbs_B_1um_2p_r_square:missing_value = -9999.f ; int fRH_Bbs_B_1um_2p_n(time) ; fRH_Bbs_B_1um_2p_n:long_name = "Number of data points in the hygroscopicity fit for fRH_Bbs_B_1um_2p" ; fRH_Bbs_B_1um_2p_n:units = "unitless" ; fRH_Bbs_B_1um_2p_n:missing_value = -9999 ; float Bs_R_Dry_10um_min(time) ; Bs_R_Dry_10um_min:long_name = "Minimum value of Bs_R_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bs_R_Dry_10um_min:units = "1/Mm" ; Bs_R_Dry_10um_min:missing_value = -9999.f ; float Bs_R_Wet_10um_min(time) ; Bs_R_Wet_10um_min:long_name = "Minimum value of Bs_R_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bs_R_Wet_10um_min:units = "1/Mm" ; Bs_R_Wet_10um_min:missing_value = -9999.f ; float Bs_G_Dry_10um_min(time) ; Bs_G_Dry_10um_min:long_name = "Minimum value of Bs_G_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bs_G_Dry_10um_min:units = "1/Mm" ; Bs_G_Dry_10um_min:missing_value = -9999.f ; float Bs_G_Wet_10um_min(time) ; Bs_G_Wet_10um_min:long_name = "Minimum value of Bs_G_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bs_G_Wet_10um_min:units = "1/Mm" ; Bs_G_Wet_10um_min:missing_value = -9999.f ; float Bs_B_Dry_10um_min(time) ; Bs_B_Dry_10um_min:long_name = "Minimum value of Bs_B_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bs_B_Dry_10um_min:units = "1/Mm" ; Bs_B_Dry_10um_min:missing_value = -9999.f ; float Bs_B_Wet_10um_min(time) ; Bs_B_Wet_10um_min:long_name = "Minimum value of Bs_B_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bs_B_Wet_10um_min:units = "1/Mm" ; Bs_B_Wet_10um_min:missing_value = -9999.f ; float Bs_R_Dry_1um_min(time) ; Bs_R_Dry_1um_min:long_name = "Minimum value of Bs_R_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bs_R_Dry_1um_min:units = "1/Mm" ; Bs_R_Dry_1um_min:missing_value = -9999.f ; float Bs_R_Wet_1um_min(time) ; Bs_R_Wet_1um_min:long_name = "Minimum value of Bs_R_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bs_R_Wet_1um_min:units = "1/Mm" ; Bs_R_Wet_1um_min:missing_value = -9999.f ; float Bs_G_Dry_1um_min(time) ; Bs_G_Dry_1um_min:long_name = "Minimum value of Bs_G_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bs_G_Dry_1um_min:units = "1/Mm" ; Bs_G_Dry_1um_min:missing_value = -9999.f ; float Bs_G_Wet_1um_min(time) ; Bs_G_Wet_1um_min:long_name = "Minimum value of Bs_G_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bs_G_Wet_1um_min:units = "1/Mm" ; Bs_G_Wet_1um_min:missing_value = -9999.f ; float Bs_B_Dry_1um_min(time) ; Bs_B_Dry_1um_min:long_name = "Minimum value of Bs_B_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bs_B_Dry_1um_min:units = "1/Mm" ; Bs_B_Dry_1um_min:missing_value = -9999.f ; float Bs_B_Wet_1um_min(time) ; Bs_B_Wet_1um_min:long_name = "Minimum value of Bs_B_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bs_B_Wet_1um_min:units = "1/Mm" ; Bs_B_Wet_1um_min:missing_value = -9999.f ; float Bbs_R_Dry_10um_min(time) ; Bbs_R_Dry_10um_min:long_name = "Minimum value of Bbs_R_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bbs_R_Dry_10um_min:units = "1/Mm" ; Bbs_R_Dry_10um_min:missing_value = -9999.f ; float Bbs_R_Wet_10um_min(time) ; Bbs_R_Wet_10um_min:long_name = "Minimum value of Bbs_R_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bbs_R_Wet_10um_min:units = "1/Mm" ; Bbs_R_Wet_10um_min:missing_value = -9999.f ; float Bbs_G_Dry_10um_min(time) ; Bbs_G_Dry_10um_min:long_name = "Minimum value of Bbs_G_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bbs_G_Dry_10um_min:units = "1/Mm" ; Bbs_G_Dry_10um_min:missing_value = -9999.f ; float Bbs_G_Wet_10um_min(time) ; Bbs_G_Wet_10um_min:long_name = "Minimum value of Bbs_G_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bbs_G_Wet_10um_min:units = "1/Mm" ; Bbs_G_Wet_10um_min:missing_value = -9999.f ; float Bbs_B_Dry_10um_min(time) ; Bbs_B_Dry_10um_min:long_name = "Minimum value of Bbs_B_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bbs_B_Dry_10um_min:units = "1/Mm" ; Bbs_B_Dry_10um_min:missing_value = -9999.f ; float Bbs_B_Wet_10um_min(time) ; Bbs_B_Wet_10um_min:long_name = "Minimum value of Bbs_B_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bbs_B_Wet_10um_min:units = "1/Mm" ; Bbs_B_Wet_10um_min:missing_value = -9999.f ; float Bbs_R_Dry_1um_min(time) ; Bbs_R_Dry_1um_min:long_name = "Minimum value of Bbs_R_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bbs_R_Dry_1um_min:units = "1/Mm" ; Bbs_R_Dry_1um_min:missing_value = -9999.f ; float Bbs_R_Wet_1um_min(time) ; Bbs_R_Wet_1um_min:long_name = "Minimum value of Bbs_R_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bbs_R_Wet_1um_min:units = "1/Mm" ; Bbs_R_Wet_1um_min:missing_value = -9999.f ; float Bbs_G_Dry_1um_min(time) ; Bbs_G_Dry_1um_min:long_name = "Minimum value of Bbs_G_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bbs_G_Dry_1um_min:units = "1/Mm" ; Bbs_G_Dry_1um_min:missing_value = -9999.f ; float Bbs_G_Wet_1um_min(time) ; Bbs_G_Wet_1um_min:long_name = "Minimum value of Bbs_G_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bbs_G_Wet_1um_min:units = "1/Mm" ; Bbs_G_Wet_1um_min:missing_value = -9999.f ; float Bbs_B_Dry_1um_min(time) ; Bbs_B_Dry_1um_min:long_name = "Minimum value of Bbs_B_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bbs_B_Dry_1um_min:units = "1/Mm" ; Bbs_B_Dry_1um_min:missing_value = -9999.f ; float Bbs_B_Wet_1um_min(time) ; Bbs_B_Wet_1um_min:long_name = "Minimum value of Bbs_B_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bbs_B_Wet_1um_min:units = "1/Mm" ; Bbs_B_Wet_1um_min:missing_value = -9999.f ; float Bs_R_Dry_10um_max(time) ; Bs_R_Dry_10um_max:long_name = "Maximum value of Bs_R_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bs_R_Dry_10um_max:units = "1/Mm" ; Bs_R_Dry_10um_max:missing_value = -9999.f ; float Bs_R_Wet_10um_max(time) ; Bs_R_Wet_10um_max:long_name = "Maximum value of Bs_R_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bs_R_Wet_10um_max:units = "1/Mm" ; Bs_R_Wet_10um_max:missing_value = -9999.f ; float Bs_G_Dry_10um_max(time) ; Bs_G_Dry_10um_max:long_name = "Maximum value of Bs_G_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bs_G_Dry_10um_max:units = "1/Mm" ; Bs_G_Dry_10um_max:missing_value = -9999.f ; float Bs_G_Wet_10um_max(time) ; Bs_G_Wet_10um_max:long_name = "Maximum value of Bs_G_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bs_G_Wet_10um_max:units = "1/Mm" ; Bs_G_Wet_10um_max:missing_value = -9999.f ; float Bs_B_Dry_10um_max(time) ; Bs_B_Dry_10um_max:long_name = "Maximum value of Bs_B_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bs_B_Dry_10um_max:units = "1/Mm" ; Bs_B_Dry_10um_max:missing_value = -9999.f ; float Bs_B_Wet_10um_max(time) ; Bs_B_Wet_10um_max:long_name = "Maximum value of Bs_B_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bs_B_Wet_10um_max:units = "1/Mm" ; Bs_B_Wet_10um_max:missing_value = -9999.f ; float Bs_R_Dry_1um_max(time) ; Bs_R_Dry_1um_max:long_name = "Maximum value of Bs_R_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bs_R_Dry_1um_max:units = "1/Mm" ; Bs_R_Dry_1um_max:missing_value = -9999.f ; float Bs_R_Wet_1um_max(time) ; Bs_R_Wet_1um_max:long_name = "Maximum value of Bs_R_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bs_R_Wet_1um_max:units = "1/Mm" ; Bs_R_Wet_1um_max:missing_value = -9999.f ; float Bs_G_Dry_1um_max(time) ; Bs_G_Dry_1um_max:long_name = "Maximum value of Bs_G_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bs_G_Dry_1um_max:units = "1/Mm" ; Bs_G_Dry_1um_max:missing_value = -9999.f ; float Bs_G_Wet_1um_max(time) ; Bs_G_Wet_1um_max:long_name = "Maximum value of Bs_G_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bs_G_Wet_1um_max:units = "1/Mm" ; Bs_G_Wet_1um_max:missing_value = -9999.f ; float Bs_B_Dry_1um_max(time) ; Bs_B_Dry_1um_max:long_name = "Maximum value of Bs_B_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bs_B_Dry_1um_max:units = "1/Mm" ; Bs_B_Dry_1um_max:missing_value = -9999.f ; float Bs_B_Wet_1um_max(time) ; Bs_B_Wet_1um_max:long_name = "Maximum value of Bs_B_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bs_B_Wet_1um_max:units = "1/Mm" ; Bs_B_Wet_1um_max:missing_value = -9999.f ; float Bbs_R_Dry_10um_max(time) ; Bbs_R_Dry_10um_max:long_name = "Maximum value of Bbs_R_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bbs_R_Dry_10um_max:units = "1/Mm" ; Bbs_R_Dry_10um_max:missing_value = -9999.f ; float Bbs_R_Wet_10um_max(time) ; Bbs_R_Wet_10um_max:long_name = "Maximum value of Bbs_R_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bbs_R_Wet_10um_max:units = "1/Mm" ; Bbs_R_Wet_10um_max:missing_value = -9999.f ; float Bbs_G_Dry_10um_max(time) ; Bbs_G_Dry_10um_max:long_name = "Maximum value of Bbs_G_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bbs_G_Dry_10um_max:units = "1/Mm" ; Bbs_G_Dry_10um_max:missing_value = -9999.f ; float Bbs_G_Wet_10um_max(time) ; Bbs_G_Wet_10um_max:long_name = "Maximum value of Bbs_G_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bbs_G_Wet_10um_max:units = "1/Mm" ; Bbs_G_Wet_10um_max:missing_value = -9999.f ; float Bbs_B_Dry_10um_max(time) ; Bbs_B_Dry_10um_max:long_name = "Maximum value of Bbs_B_Dry_10um_Neph3W_1 in data selected for fRH fit" ; Bbs_B_Dry_10um_max:units = "1/Mm" ; Bbs_B_Dry_10um_max:missing_value = -9999.f ; float Bbs_B_Wet_10um_max(time) ; Bbs_B_Wet_10um_max:long_name = "Maximum value of Bbs_B_Wet_10um_Neph3W_2 in data selected for fRH fit" ; Bbs_B_Wet_10um_max:units = "1/Mm" ; Bbs_B_Wet_10um_max:missing_value = -9999.f ; float Bbs_R_Dry_1um_max(time) ; Bbs_R_Dry_1um_max:long_name = "Maximum value of Bbs_R_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bbs_R_Dry_1um_max:units = "1/Mm" ; Bbs_R_Dry_1um_max:missing_value = -9999.f ; float Bbs_R_Wet_1um_max(time) ; Bbs_R_Wet_1um_max:long_name = "Maximum value of Bbs_R_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bbs_R_Wet_1um_max:units = "1/Mm" ; Bbs_R_Wet_1um_max:missing_value = -9999.f ; float Bbs_G_Dry_1um_max(time) ; Bbs_G_Dry_1um_max:long_name = "Maximum value of Bbs_G_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bbs_G_Dry_1um_max:units = "1/Mm" ; Bbs_G_Dry_1um_max:missing_value = -9999.f ; float Bbs_G_Wet_1um_max(time) ; Bbs_G_Wet_1um_max:long_name = "Maximum value of Bbs_G_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bbs_G_Wet_1um_max:units = "1/Mm" ; Bbs_G_Wet_1um_max:missing_value = -9999.f ; float Bbs_B_Dry_1um_max(time) ; Bbs_B_Dry_1um_max:long_name = "Maximum value of Bbs_B_Dry_1um_Neph3W_1 in data selected for fRH fit" ; Bbs_B_Dry_1um_max:units = "1/Mm" ; Bbs_B_Dry_1um_max:missing_value = -9999.f ; float Bbs_B_Wet_1um_max(time) ; Bbs_B_Wet_1um_max:long_name = "Maximum value of Bbs_B_Wet_1um_Neph3W_2 in data selected for fRH fit" ; Bbs_B_Wet_1um_max:units = "1/Mm" ; Bbs_B_Wet_1um_max:missing_value = -9999.f ; float RH_NephVol_Dry_min(time) ; RH_NephVol_Dry_min:long_name = "Minimum value of RH_NephVol_Dry in data selected for fit" ; RH_NephVol_Dry_min:units = "%" ; RH_NephVol_Dry_min:missing_value = -9999.f ; float RH_NephVol_Dry_max(time) ; RH_NephVol_Dry_max:long_name = "Maximum value of RH_NephVol_Dry in data selected for fit" ; RH_NephVol_Dry_max:units = "%" ; RH_NephVol_Dry_max:missing_value = -9999.f ; float RH_NephVol_Wet_min(time) ; RH_NephVol_Wet_min:long_name = "Minimum value of RH_NephVol_Wet in data selected for fit" ; RH_NephVol_Wet_min:units = "%" ; RH_NephVol_Wet_min:missing_value = -9999.f ; float RH_NephVol_Wet_max(time) ; RH_NephVol_Wet_max:long_name = "Maximum value of RH_NephVol_Wet in data selected for fit" ; RH_NephVol_Wet_max:units = "%" ; RH_NephVol_Wet_max:missing_value = -9999.f ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:standard_name = "latitude" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:standard_name = "longitude" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "vap-aipfitrh1ogren-1.1-0.el6" ; :dod_version = "aipfitrh1ogren-c1-1.1" ; :command_line = "aipfitrh1ogren -b 20131014 -s nsa -f X1" ; :site_id = "nsa" ; :facility_id = "X1" ; :platform_id = "aipfitrh1ogren" ; :location_description = "North Slope of Alaska (NSA), External Facility" ; :title = "AOS f(RH) from aip1ogren 1 minute data" ; :data_level = "s1" ; :comment = "Curve fitting parameters for scattering vs RH in the red, green and blue channel" ; :comment2 = "The two 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]" ; :curve_fit_iter_max = "500 (maximum number of iterations per fit)" ; :curve_fit_points = "20 (minimum number of input values per fit)" ; :curve_fit_tolerance = ".001 (convergence tolerance for the fit)" ; :input_datastreams = "nsaaip1ogrenX1.c1 : 4.3 : 20131014.000000" ; :datastream = "nsaaipfitrh1ogrenX1.c1" ; :history = "created by user dsmgr on machine tin at 28-Feb-2014,00:43:47" ; }