; This Streamer input file shows how to use bandweights to calculate AVHRR ; channels 1 and 3 albedos. It also illustrates the use of the print statement. OPTIONS .FALSE. ; Compute fluxes (or radiances)? (FLUXES) .false. ; Include thermal emission in band 106? (IR106) .FALSE. ; Compute cloud forcing? (CLDFRC) 12 4 ; Number of streams, short and long (NSTR*) 32 ; Number of Legendre coeff. (NCOEF) .FALSE. ; Include gaseous absorption? (GASABS) .TRUE. ; Include Rayleigh scatter (shortwave)? (RAYLISHRT) 2 ; Surface albedo control (ALBTYPE) 4 ; Surface emissivity control (EMISSTYPE) 5 .FALSE. ; Std prof; extend input profile to 100 km? 5 1 ; Aerosol model and profile 1 2 3 1 1 3 4 ; Height, temp, wv, oz, cloud units, band spec. 3 ; Output levels control .false. ; Descriptive output desired? .true. ; User-customized output? testrad2.out avhrr-12.wts .FALSE. ; Read cloud optical properties? CPRINT channel, zen, rsurf, satalb(1,1), satalb(2,1), satalb(3,1), \ satalb(1,2), satalb(2,2), satalb(3,2) setdata Cloudy, April conditions, AVHRR channel 1 92 4 28 22.0 72.88 144.50 -99.0 3 0.5 0.87 1.0 2 10.0 180.0 1 0.75 1 5 1.0 -999., 0.99 ; tsurf, emiss 1 1 0.2 999. 300.0 999 2. 1 1 50.0 0.07 999 999 999 0 ; Cloud overlap 1 1 1 1 0 0 13 1.0 1.0 1.0 1.0 1.0 1.0 14.101 125.4 -50.9 2.0 10.948 204.9 -56.2 7.0 8.486 303.5 -60.2 35.0 7.864 335.1 -57.1 43.0 6.651 404.8 -50.0 47.0 6.041 444.1 -45.5 43.0 4.860 528.4 -36.8 58.0 3.702 622.4 -26.8 39.0 2.618 721.7 -19.7 67.0 1.592 828.2 -16.2 72.0 0.973 898.3 -10.9 60.0 0.577 945.8 -12.2 67.0 0.000 1022.0 -23.2 78.0 300.0 0. replace channel=[1,3]