module epslon_stochy_mod implicit none contains subroutine epslon_stochy(epse,epso,epsedn,epsodn, & ls_node) cc use stochy_resol_def use spectral_layout_mod use machine implicit none cc real(kind_dbl_prec) epse(len_trie_ls) real(kind_dbl_prec) epso(len_trio_ls) cc real(kind_dbl_prec) epsedn(len_trie_ls) real(kind_dbl_prec) epsodn(len_trio_ls) cc integer ls_node(ls_dim,3) cc !cmr ls_node(1,1) ... ls_node(ls_max_node,1) : values of L !cmr ls_node(1,2) ... ls_node(ls_max_node,2) : values of jbasev !cmr ls_node(1,3) ... ls_node(ls_max_node,3) : values of jbasod cc integer l,locl,n cc integer indev integer indod cc real(kind_dbl_prec) f1,f2,rn,val cc real(kind_dbl_prec) cons0 !constant cc integer indlsev,jbasev integer indlsod,jbasod cc include 'function2' cc cc cons0=0.0d0 !constant cc cc cc...................................................................... cc cc do locl=1,ls_max_node l=ls_node(locl,1) jbasev=ls_node(locl,2) indev=indlsev(l,l) epse (indev)=cons0 !constant epsedn(indev)=cons0 !constant indev=indev+1 cc do n=l+2,jcap+1,2 rn=n f1=n*n-l*l f2=4*n*n-1 val=sqrt(f1/f2) epse (indev)=val epsedn(indev)=val/rn indev=indev+1 enddo cc enddo cc cc cc...................................................................... cc cc do locl=1,ls_max_node l=ls_node(locl,1) jbasod=ls_node(locl,3) indod=indlsod(l+1,l) cc do n=l+1,jcap+1,2 rn=n f1=n*n-l*l f2=4*n*n-1 val=sqrt(f1/f2) epso (indod)=val epsodn(indod)=val/rn indod=indod+1 enddo cc enddo cc return end end module epslon_stochy_mod