# ----------------------------------------------------------- # MOS sensor-specific atmospheric correction data # ----------------------------------------------------------- # # Number of bands # Nbands = 8 # # Wavelengths (um) # Lambda(1) = 408 Lambda(2) = 443 Lambda(3) = 485 Lambda(4) = 520 Lambda(5) = 570 Lambda(6) = 685 Lambda(7) = 750 Lambda(8) = 870 # # Extraterrestrial Solar Irradiance (mW/cm^2/um/sr) # F0(1) = 168.77 F0(2) = 189.03 F0(3) = 194.73 F0(4) = 182.36 F0(5) = 184.59 F0(6) = 147.48 F0(7) = 127.26 F0(8) = 96.65 # # Rayleigh optical thickness # Tau_r(1) = 0.3322 Tau_r(2) = 0.2351 Tau_r(3) = 0.1640 Tau_r(4) = 0.1220 Tau_r(5) = 0.0841 Tau_r(6) = 0.0399 Tau_r(7) = 0.0278 Tau_r(8) = 0.0153 # # Ozone absorption (/cm) # k_oz(1) = 0.00076 k_oz(2) = 0.00379 k_oz(3) = 0.02120 k_oz(4) = 0.04930 k_oz(5) = 0.12348 k_oz(6) = 0.03395 k_oz(7) = 0.01021 k_oz(8) = 0.00367 # # co2 transmittance # Z. Amhad, May 2006 # t_co2(1) = 1.0 t_co2(2) = 1.0 t_co2(3) = 1.0 t_co2(4) = 1.0 t_co2(5) = 1.0 t_co2(6) = 1.0 t_co2(7) = 1.0 t_co2(8) = 1.0 # # no2 absorption coefficient (per molecule) # Z. Amhad, May 2006 # k_no2(1) = 0.0 k_no2(2) = 0.0 k_no2(3) = 0.0 k_no2(4) = 0.0 k_no2(5) = 0.0 k_no2(6) = 0.0 k_no2(7) = 0.0 k_no2(8) = 0.0 # # h2o absorption transittance function # Z. Amhad, May 2006 # a_h2o(1) = 1.0 a_h2o(2) = 1.0 a_h2o(3) = 1.0 a_h2o(4) = 1.0 a_h2o(5) = 1.0 a_h2o(6) = 1.0 a_h2o(7) = 1.0 a_h2o(8) = 1.0 b_h2o(1) = 0.0 b_h2o(2) = 0.0 b_h2o(3) = 0.0 b_h2o(4) = 0.0 b_h2o(5) = 0.0 b_h2o(6) = 0.0 b_h2o(7) = 0.0 b_h2o(8) = 0.0 c_h2o(1) = 0.0 c_h2o(2) = 0.0 c_h2o(3) = 0.0 c_h2o(4) = 0.0 c_h2o(5) = 0.0 c_h2o(6) = 0.0 c_h2o(7) = 0.0 c_h2o(8) = 0.0 d_h2o(1) = 0.0 d_h2o(2) = 0.0 d_h2o(3) = 0.0 d_h2o(4) = 0.0 d_h2o(5) = 0.0 d_h2o(6) = 0.0 d_h2o(7) = 0.0 d_h2o(8) = 0.0 e_h2o(1) = 0.0 e_h2o(2) = 0.0 e_h2o(3) = 0.0 e_h2o(4) = 0.0 e_h2o(5) = 0.0 e_h2o(6) = 0.0 e_h2o(7) = 0.0 e_h2o(8) = 0.0 f_h2o(1) = 0.0 f_h2o(2) = 0.0 f_h2o(3) = 0.0 f_h2o(4) = 0.0 f_h2o(5) = 0.0 f_h2o(6) = 0.0 f_h2o(7) = 0.0 f_h2o(8) = 0.0 g_h2o(1) = 0.0 g_h2o(2) = 0.0 g_h2o(3) = 0.0 g_h2o(4) = 0.0 g_h2o(5) = 0.0 g_h2o(6) = 0.0 g_h2o(7) = 0.0 g_h2o(8) = 0.0 # # White-cap albedo (Frouin, May 1999) # awhite(1) = 1.0 awhite(2) = 1.0 awhite(3) = 1.0 awhite(4) = 1.0 awhite(5) = 1.0 awhite(6) = 0.889225 awhite(7) = 0.760046 awhite(8) = 0.644950 # # Band-averaged water absorption (Pope & Fry 1997 + Kou et. al. 1993) # aw(1) = 0.005086 aw(2) = 0.007079 aw(3) = 0.01350 aw(4) = 0.04056 aw(5) = 0.06941 aw(6) = 0.4868 aw(7) = 2.853 aw(8) = 4.680 # # Band-averaged backscatter (Smith and Baker 1981) # bbw(1) = 0.003488 bbw(2) = 0.002435 bbw(3) = 0.001678 bbw(4) = 0.001227 bbw(5) = 0.0008314 bbw(6) = 0.0003813 bbw(7) = 0.0002602 bbw(8) = 0.0001394 # # Out-of-band water-vapor functions (Yang algorithm) # oobwv01(1) = 1.00000e+00 oobwv02(1) = 0.00000e+00 oobwv03(1) = 0.00000e+00 oobwv04(1) = 0.00000e+00 oobwv05(1) = 0.00000e+00 oobwv06(1) = 0.00000e+00 oobwv07(1) = 0.00000e+00 oobwv08(1) = 0.00000e+00 oobwv09(1) = 0.00000e+00 oobwv10(1) = 0.00000e+00 oobwv11(1) = 0.00000e+00 oobwv12(1) = 0.00000e+00 oobwv01(2) = 1.00000e+00 oobwv02(2) = 0.00000e+00 oobwv03(2) = 0.00000e+00 oobwv04(2) = 0.00000e+00 oobwv05(2) = 0.00000e+00 oobwv06(2) = 0.00000e+00 oobwv07(2) = 0.00000e+00 oobwv08(2) = 0.00000e+00 oobwv09(2) = 0.00000e+00 oobwv10(2) = 0.00000e+00 oobwv11(2) = 0.00000e+00 oobwv12(2) = 0.00000e+00 oobwv01(3) = 1.00000e+00 oobwv02(3) = 0.00000e+00 oobwv03(3) = 0.00000e+00 oobwv04(3) = 0.00000e+00 oobwv05(3) = 0.00000e+00 oobwv06(3) = 0.00000e+00 oobwv07(3) = 0.00000e+00 oobwv08(3) = 0.00000e+00 oobwv09(3) = 0.00000e+00 oobwv10(3) = 0.00000e+00 oobwv11(3) = 0.00000e+00 oobwv12(3) = 0.00000e+00 oobwv01(4) = 1.00000e+00 oobwv02(4) = 0.00000e+00 oobwv03(4) = 0.00000e+00 oobwv04(4) = 0.00000e+00 oobwv05(4) = 0.00000e+00 oobwv06(4) = 0.00000e+00 oobwv07(4) = 0.00000e+00 oobwv08(4) = 0.00000e+00 oobwv09(4) = 0.00000e+00 oobwv10(4) = 0.00000e+00 oobwv11(4) = 0.00000e+00 oobwv12(4) = 0.00000e+00 oobwv01(5) = 1.00000e+00 oobwv02(5) = 0.00000e+00 oobwv03(5) = 0.00000e+00 oobwv04(5) = 0.00000e+00 oobwv05(5) = 0.00000e+00 oobwv06(5) = 0.00000e+00 oobwv07(5) = 0.00000e+00 oobwv08(5) = 0.00000e+00 oobwv09(5) = 0.00000e+00 oobwv10(5) = 0.00000e+00 oobwv11(5) = 0.00000e+00 oobwv12(5) = 0.00000e+00 oobwv01(6) = 1.00000e+00 oobwv02(6) = 0.00000e+00 oobwv03(6) = 0.00000e+00 oobwv04(6) = 0.00000e+00 oobwv05(6) = 0.00000e+00 oobwv06(6) = 0.00000e+00 oobwv07(6) = 0.00000e+00 oobwv08(6) = 0.00000e+00 oobwv09(6) = 0.00000e+00 oobwv10(6) = 0.00000e+00 oobwv11(6) = 0.00000e+00 oobwv12(6) = 0.00000e+00 oobwv01(7) = 1.00000e+00 oobwv02(7) = 0.00000e+00 oobwv03(7) = 0.00000e+00 oobwv04(7) = 0.00000e+00 oobwv05(7) = 0.00000e+00 oobwv06(7) = 0.00000e+00 oobwv07(7) = 0.00000e+00 oobwv08(7) = 0.00000e+00 oobwv09(7) = 0.00000e+00 oobwv10(7) = 0.00000e+00 oobwv11(7) = 0.00000e+00 oobwv12(7) = 0.00000e+00 oobwv01(8) = 1.00000e+00 oobwv02(8) = 0.00000e+00 oobwv03(8) = 0.00000e+00 oobwv04(8) = 0.00000e+00 oobwv05(8) = 0.00000e+00 oobwv06(8) = 0.00000e+00 oobwv07(8) = 0.00000e+00 oobwv08(8) = 0.00000e+00 oobwv09(8) = 0.00000e+00 oobwv10(8) = 0.00000e+00 oobwv11(8) = 0.00000e+00 oobwv12(8) = 0.00000e+00 # # Full band to nominal band nLw functions # ooblw01(1) = 1.00000e+00 ooblw02(1) = 0.00000e+00 ooblw03(1) = 0.00000e+00 ooblw01(2) = 1.00000e+00 ooblw02(2) = 0.00000e+00 ooblw03(2) = 0.00000e+00 ooblw01(3) = 1.00000e+00 ooblw02(3) = 0.00000e+00 ooblw03(3) = 0.00000e+00 ooblw01(4) = 1.00000e+00 ooblw02(4) = 0.00000e+00 ooblw03(4) = 0.00000e+00 ooblw01(5) = 1.00000e+00 ooblw02(5) = 0.00000e+00 ooblw03(5) = 0.00000e+00 ooblw01(6) = 1.00000e+00 ooblw02(6) = 0.00000e+00 ooblw03(6) = 0.00000e+00 ooblw01(7) = 1.00000e+00 ooblw02(7) = 0.00000e+00 ooblw03(7) = 0.00000e+00 ooblw01(8) = 1.00000e+00 ooblw02(8) = 0.00000e+00 ooblw03(8) = 0.00000e+00 # # Weights for Ed integration to ipar (Sean, 16 Aug 2004) # wed(1) = 28.60 wed(2) = 36.91 wed(3) = 45.31 wed(4) = 32.58 wed(5) = 107.09 wed(6) = 51.12 wed(7) = 0.0 wed(8) = 0.0