subroutine setspv !================================================================== ! ! Purpose ! ------- ! Set up spectral intervals, stellar spectrum and Rayleigh ! opacity in the shortwave. ! ! Authors ! ------- ! Adapted from setspv in the NASA Ames radiative code by ! Robin Wordsworth (2009). ! ! Called by ! --------- ! callcorrk.F ! ! Calls ! ----- ! ave_stelspec.F ! !================================================================== use radinc_h, only: L_NSPECTV, corrkdir, banddir use radcommon_h, only: BWNV,BLAMV,WNOV,DWNV,WAVEV, & STELLARF,TAURAY use datafile_mod, only: datadir use callkeys_mod, only: Fat1AU,rayleigh implicit none logical file_ok integer N, M, file_entries character(len=30) :: temp1 character(len=200) :: file_id character(len=200) :: file_path real*8 :: lastband(2) real*8 STELLAR(L_NSPECTV) real*8 sum, dummy !! used to count lines integer :: nb integer :: ierr !======================================================================= ! Set up spectral bands - wavenumber [cm^(-1)]. Go from smaller to ! larger wavenumbers, the same as in the IR. write(temp1,'(i2.2)') L_NSPECTV file_id='/corrk_data/'//trim(adjustl(banddir))//'/narrowbands_VI.in' file_path=TRIM(datadir)//TRIM(file_id) ! check that the file exists inquire(FILE=file_path,EXIST=file_ok) if(.not.file_ok) then write(*,*)'The file ',TRIM(file_path) write(*,*)'was not found by setspv.F90, exiting.' write(*,*)'Check that your path to datagcm:',trim(datadir) write(*,*)' is correct. You can change it in callphys.def with:' write(*,*)' datadir = /absolute/path/to/datagcm' write(*,*)'Also check that the corrkdir you chose in callphys.def exists.' call abort endif !$OMP MASTER nb=0 ierr=0 ! check that the file contains the right number of bands open(131,file=file_path,form='formatted') read(131,*,iostat=ierr) file_entries do while (ierr==0) read(131,*,iostat=ierr) dummy if (ierr==0) nb=nb+1 enddo close(131) write(*,*) 'setspv: L_NSPECTV = ',L_NSPECTV, 'in the model ' write(*,*) ' there are ',nb, 'entries in ',TRIM(file_path) if(nb.ne.L_NSPECTV) then write(*,*) 'MISMATCH !! I stop here' call abort endif ! load and display the data open(111,file=file_path,form='formatted') read(111,*) do M=1,L_NSPECTV-1 read(111,*) BWNV(M) end do read(111,*) lastband close(111) BWNV(L_NSPECTV) =lastband(1) BWNV(L_NSPECTV+1)=lastband(2) !$OMP END MASTER !$OMP BARRIER print*,'setspv: VI band limits:' do M=1,L_NSPECTV+1 print*,m,'-->',BWNV(M),' cm^-1' end do print*,' ' ! Set up mean wavenumbers and wavenumber deltas. Units of ! wavenumbers is cm^(-1); units of wavelengths is microns. do M=1,L_NSPECTV WNOV(M) = 0.5*(BWNV(M+1)+BWNV(M)) DWNV(M) = BWNV(M+1)-BWNV(M) WAVEV(M) = 1.0E+4/WNOV(M) BLAMV(M) = 0.01/BWNV(M) end do BLAMV(M) = 0.01/BWNV(M) ! wavelength in METERS for aerosol stuff ! note M=L_NSPECTV+1 after loop due to Fortran bizarreness !======================================================================= ! Set up stellar spectrum write(*,*)'setspv: Interpolating stellar spectrum from the hires data...' call ave_stelspec(STELLAR) ! Sum the stellar flux, and write out the result. sum = 0.0 do N=1,L_NSPECTV STELLARF(N) = STELLAR(N) * Fat1AU sum = sum+STELLARF(N) end do write(6,'("setspv: Stellar flux at 1 AU = ",f9.2," W m-2")') sum print*,' ' !======================================================================= ! Set up the wavelength independent part of the Rayleigh scattering. ! The pressure dependent part will be computed elsewhere (OPTCV). ! WAVEV is in microns. There is no Rayleigh scattering in the IR. if(rayleigh) then call calc_rayleigh else print*,'setspv: No Rayleigh scattering, check for NaN in output!' do N=1,L_NSPECTV TAURAY(N) = 1E-16 end do endif RETURN END subroutine setspv