module radcommon_h use radinc_h implicit none !----------------------------------------------------------------------C ! ! radcommon.h ! !----------------------------------------------------------------------C ! ! "Include" grid.h and radinc.h before this file in code that uses ! some or all of this common data set ! ! WNOI - Array of wavenumbers at the spectral interval ! centers for the infrared. Array is NSPECTI ! elements long. ! DWNI - Array of "delta wavenumber", i.e., the width, ! in wavenumbers (cm^-1) of each IR spectral ! interval. NSPECTI elements long. ! WAVEI - Array (NSPECTI elements long) of the wavelenght ! (in microns) at the center of each IR spectral ! interval. ! WNOV - Array of wavenumbers at the spectral interval ! center for the VISUAL. Array is NSPECTV ! elements long. ! DWNV - Array of "delta wavenumber", i.e., the width, ! in wavenumbers (cm^-1) of each VISUAL spectral ! interval. NSPECTV elements long. ! WAVEV - Array (NSPECTV elements long) of the wavelenght ! (in microns) at the center of each VISUAL spectral ! interval. ! STELLARF - Array (NSPECTV elements) of stellar flux (W/M^2) in ! each spectral interval. Values are for 1 AU, ! scaled to the planetary distance elsewhere. ! TAURAY - Array (NSPECTV elements) of the pressure-independent ! part of Rayleigh scattering optical depth. ! FZEROI - Fraction of zeros in the IR CO2 k-coefficients, for ! each temperature, pressure, and spectral interval ! FZEROV - Fraction of zeros in the VISUAL CO2 k-coefficients, for ! each temperature, pressure, and spectral interval ! ! AEROSOL RADIATIVE OPTICAL CONSTANTS ! ! Shortwave ! ~~~~~~~~~ ! ! typically for dust on mars: longrefvis = 0.67E-6 m, as measured by Viking ! ! For the "naerkind" kind of aerosol radiative properties : ! QVISsQREF : Qext / Qext("longrefvis") ! omegavis : single scattering albedo ! gvis : assymetry factor ! ! Longwave ! ~~~~~~~~ ! ! For the "naerkind" kind of aerosol radiative properties : ! QIRsQREF : Qext / Qext("longrefvis") ! omegaIR : mean single scattering albedo ! gIR : mean assymetry factor character(len=3) :: gastype(3) REAL*8 BWNI(L_NSPECTI+1), WNOI(L_NSPECTI), DWNI(L_NSPECTI), WAVEI(L_NSPECTI) REAL*8 BWNV(L_NSPECTV+1), WNOV(L_NSPECTV), DWNV(L_NSPECTV), WAVEV(L_NSPECTV) REAL*8 STELLARF(L_NSPECTV), TAURAY(L_NSPECTV) REAL*8 blami(L_NSPECTI+1) REAL*8 blamv(L_NSPECTV+1) ! these are needed by suaer.F90 real*8 gasi(L_NTREF,L_PINT,L_REFVAR,L_NSPECTI,L_NGAUSS) real*8 gasv(L_NTREF,L_PINT,L_REFVAR,L_NSPECTV,L_NGAUSS) real*8 FZEROI(L_NSPECTI) real*8 FZEROV(L_NSPECTV) real*8 PGASREF(L_NPREF), TGASREF(L_NTREF) real*8 pgasmin, pgasmax real*8 tgasmin, tgasmax real QVISsQREF(L_NSPECTV,naerkind,nsizemax) real omegavis(L_NSPECTV,naerkind,nsizemax) real gvis(L_NSPECTV,naerkind,nsizemax) real QIRsQREF(L_NSPECTI,naerkind,nsizemax) real omegair(L_NSPECTI,naerkind,nsizemax) real gir(L_NSPECTI,naerkind,nsizemax) real*8 WREFVAR(L_REFVAR) ! Reference wavelengths used to compute reference optical depth (m) ! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ REAL lamrefir(naerkind),lamrefvis(naerkind) ! Actual number of grain size classes in each domain for a ! given aerosol: INTEGER :: nsize(naerkind,2) ! Particle size axis (depend on the kind of aerosol and the ! radiation domain) DOUBLE PRECISION :: radiustab(naerkind,2,nsizemax) ! Extinction coefficient at reference wavelengths; ! These wavelengths are defined in aeroptproperties, and called ! longrefvis and longrefir. REAL :: QREFvis(naerkind,nsizemax) REAL :: QREFir(naerkind,nsizemax) REAL :: omegaREFvis(naerkind,nsizemax) REAL :: omegaREFir(naerkind,nsizemax) REAL tstellar ! Stellar brightness temperature (SW) real*8 planckir(L_NSPECTI,NTstop-NTstar+1) real*8 PTOP, TAUREF(L_LEVELS+1) real*8 pfgasref(L_PINT) ! finer reference grid for some reason real*8, parameter :: UBARI = 0.5D0 real*8 gweight(L_NGAUSS) ! If the gas optical depth (top to the surface) is less than ! this value, we place that Gauss-point into the "zeros" ! channel. real*8, parameter :: TLIMIT = 1.0D-30 ! Factor to convert pressures from millibars to Pascals real*8, parameter :: SCALEP = 1.00D+2 real*8, parameter :: sigma = 5.67032e-8 real*8 Cmk save Cmk end module radcommon_h