Date/time in UTC; -99 represents missing value.
BOA=bottom of the atmosphere, TOA=top of the atmosphere

Column 01: day
Column 02: month
Column 03: year
Column 04: hour
Column 05: minute
Column 06: second
Column 07: Julian day
Column 08: AOT_1640
Column 09: AOT_1020
Column 10: AOT_870
Column 11: AOT_675
Column 12: AOT_667
Column 13: AOT_555
Column 14: AOT_551
Column 15: AOT_532
Column 16: AOT_531
Column 17: AOT_500
Column 18: AOT_490
Column 19: AOT_443
Column 20: AOT_440
Column 21: AOT_412
Column 22: AOT_380
Column 23: AOT_340
Column 24: Water(cm)
Column 25: AOT Extinction at 440 nm (Total)
Column 26: AOT Extinction at 675 nm (Total)
Column 27: AOT Extinction at 870 nm (Total)
Column 28: AOT Extinction at 1020 nm (Total)
Column 29: AOT Extinction at 440 nm (Fine mode)
Column 30: AOT Extinction at 675 nm (Fine mode)
Column 31: AOT Extinction at 870 nm (Fine mode)
Column 32: AOT Extinction at 1020 nm (Fine mode)
Column 33: AOT Extinction at 440 nm (Coarse mode)
Column 34: AOT Extinction at 675 nm (Coarse mode)
Column 35: AOT Extinction at 870 nm (Coarse mode)
Column 36: AOT Extinction at 1020 nm (Coarse mode)
Column 37: 870-440AngstromParam.AOT Extinction (Total)
Column 38: Single-scattering angle at 440 nm
Column 39: Single-scattering angle at 675 nm
Column 40: Single-scattering angle at 870 nm
Column 41: Single-scattering angle at 1020 nm
Column 42: AOT Absorption at 440 nm
Column 43: AOT Absorption at 675 nm
Column 44: AOT Absorption at 870 nm
Column 45: AOT Absorption at 1020 nm
Column 46: 870-440AngstromParam.[AOTAbsp]
Column 47: Real part of the refractive index at 440 nm
Column 48: Real part of the refractive index at 675 nm
Column 49: Real part of the refractive index at 870 nm
Column 50: Real part of the refractive index at 1020 nm
Column 51: Imaginary part of the refractive index at 440 nm
Column 52: Imaginary part of the refractive index at 675 nm
Column 53: Imaginary part of the refractive index at 870 nm
Column 54: Imaginary part of the refractive index at 1020 nm
Column 55: Asymmetry factor at 440 nm (Total)
Column 56: Asymmetry factor at 675 nm (Total)
Column 57: Asymmetry factor at 870 nm (Total)
Column 58: Asymmetry factor at 1020 nm (Total)
Column 59: Asymmetry factor at 440 nm (Fine mode)
Column 60: Asymmetry factor at 675 nm (Fine mode)
Column 61: Asymmetry factor at 870 nm (Fine mode)
Column 62: Asymmetry factor at 1020 nm (Fine mode)
Column 63: Asymmetry factor at 440 nm (Coarse mode)
Column 64: Asymmetry factor at 675 nm (Coarse mode)
Column 65: Asymmetry factor at 870 nm (Coarse mode)
Column 66: Asymmetry factor at 1020 nm (Coarse mode)

{Columns 67-88: size distribution, dV(r)/dln(r) in um^3/um^2}
Column 67: 0.050000 um
Column 68: 0.065604 um
Column 69: 0.086077 um
Column 70: 0.112939 um
Column 71: 0.148184 um
Column 72: 0.194429 um
Column 73: 0.255105 um
Column 74: 0.334716 um
Column 75: 0.439173 um
Column 76: 0.576227 um
Column 77: 0.756052 um
Column 78: 0.991996 um
Column 79: 1.301571 um
Column 80: 1.707757 um
Column 81: 2.240702 um
Column 82: 2.939966 um
Column 83: 3.857452 um
Column 84: 5.061260 um
Column 85: 6.640745 um
Column 86: 8.713145 um
Column 87: 11.432287 um
Column 88: 15.000000 um

Column 89: Inflection_Point[um]
Column 90: Volume Concentration (Total, um^3/um^2)
Column 91: Effective Radius (Total, um)
Column 92: Volume Median Radius (Total, um)
Column 93: Standard Deviation (Total)
Column 94: Volume Concentration (Fine, um^3/um^2)
Column 95: Effective Radius (Fine, um)
Column 96: Volume Median Radius (Fine, um)
Column 97: Standard Deviation (Fine)
Column 98: Volume Concentration (Coarse, um^3/um^2)
Column 99: Effective Radius (Coarse, um)
Column 100: Volume Median Radius (Coarse, um)
Column 101: Standard Deviation (Coarse)
Column 102: Altitude(BOA)(km)
Column 103: Altitude(TOA)(km)
Column 104: DownwardFlux(BOA)
Column 105: DownwardFlux(TOA)
Column 106: UpwardFlux(BOA)
Column 107: UpwardFlux(TOA)
Column 108: RadiativeForcing(BOA)
Column 109: RadiativeForcing(TOA)
Column 110: ForcingEfficiency(BOA)
Column 111: ForcingEfficiency(TOA)
Column 112: DownwardFlux, 440 nm
Column 113: DownwardFlux, 675 nm
Column 114: DownwardFlux, 870 nm
Column 115: DownwardFlux, 1020 nm
Column 116: UpwardFlux, 440 nm
Column 117: UpwardFlux, 675 nm
Column 118: UpwardFlux, 870 nm
Column 119: UpwardFlux, 1020 nm
Column 120: DiffuseFlux, 440 nm
Column 121: DiffuseFlux, 675 nm
Column 122: DiffuseFlux, 870 nm
Column 123: DiffuseFlux, 1020 nm
Column 124: Last Processing Date (day)
Column 125: Last Processing Date (month)
Column 126: Last Processing Date (year)
Column 127: almucantar type
Column 128: solar_zenith_angle_for_1020nm_scan
Column 129: sky_error (%)
Column 130: sun_error (%)
Column 131: Angstrom Exponenent, 440-870 nm
Column 132: AOD at 440 nm (measured)
Column 133: sphericity parameter (%)

{Columns 134-150: almucantars (sky radiance), uW/cm^2/sr/nm}
Column 134: is AOD Level 2? no=0, yes=1
Column 135: scat_angle_440_nm(>=3.2to6)
Column 136: scat_angle_440_nm(>=6to30)
Column 137: scat_angle_440_nm(>=30to80)
Column 138: scat_angle_440_nm(>=80)
Column 139: scat_angle_675_nm(>=3.2to6)
Column 140: scat_angle_675_nm(>=6to30)
Column 141: scat_angle_675_nm(>=30to80)
Column 142: scat_angle_675_nm(>=80)
Column 143: scat_angle_870_nm(>=3.2to6)
Column 144: scat_angle_870_nm(>=6to30)
Column 145: scat_angle_870_nm(>=30to80)
Column 146: scat_angle_870_nm(>=80)
Column 147: scat_angle_1020_nm(>=3.2to6)
Column 148: scat_angle_1020_nm(>=6to30)
Column 149: scat_angle_1020_nm(>=30to80)
Column 150: scat_angle_1020_nm(>=80)
Column 151: albedo_440_nm
Column 152: albedo_675_nm
Column 153: albedo_870_nm
Column 154: albedo-1020_nm
Column 155: average_solar_zenith_angle_for_broadband_flux_calculation