00001 subroutine bh_boundary_CF(sou_surf,dsou_surf,char_mp)
00002 use phys_constant, only : long
00003 use grid_parameter, only : nrg, ntg, npg, rgin
00004 use def_binary_parameter, only : dis
00005 use def_metric, only : psi
00006 use def_bh_parameter, only : ome_bh, spin_bh, alph_bh, psi_bh, bh_bctype
00007 use def_binary_parameter, only : sepa
00008 use def_metric_excurve_grid, only : tfkij_grid
00009 use def_vector_bh, only : hvec_bh_cbh_xg,hvec_bh_cm_phig,hvec_bh_cbh_spin
00010 use make_array_2d
00011 use interface_grdr_gridpoint_type0_nosym
00012 use interface_interpo_linear_type0_2Dsurf
00013 implicit none
00014 real(long), pointer :: sou_surf(:,:), dsou_surf(:,:)
00015 real(long), pointer :: psi_bhsurf(:,:), dpsi_bhsurf(:,:)
00016 real(long) :: work(2,2), deriv, dpsidr
00017 real(long) :: Aij_surf, Aij_sisj, si, sj
00018 real(long) :: psigc, psigc3, psigcinv2
00019 real(long) :: vphi_cm, vphi_cbh
00020 integer :: itg, ipg, ii, jj
00021 character(len=4), intent(in) :: char_mp
00022
00023
00024
00025 if (bh_bctype.eq.'TU') then
00026 if (char_mp.eq.'psi ') then
00027 sou_surf(1:ntg,1:npg) = psi_bh
00028 dsou_surf(1:ntg,1:npg)= 0.0d0
00029 end if
00030 if (char_mp.eq.'alps') then
00031 sou_surf(1:ntg,1:npg) = alph_bh*psi_bh
00032 dsou_surf(1:ntg,1:npg)= 0.0d0
00033 end if
00034 if (char_mp.eq.'bvxd'.or.char_mp.eq.'bvyd'.or.char_mp.eq.'bvzd') then
00035 if (char_mp.eq.'bvxd') ii = 1
00036 if (char_mp.eq.'bvyd') ii = 2
00037 if (char_mp.eq.'bvzd') ii = 3
00038 do ipg = 1, npg
00039 do itg = 1, ntg
00040 vphi_cm = hvec_bh_cm_phig(itg,ipg,ii)
00041 vphi_cbh = hvec_bh_cbh_spin(itg,ipg,ii)
00042 sou_surf(itg,ipg) = - ome_bh*vphi_cm - spin_bh*vphi_cbh
00043 dsou_surf(itg,ipg) = 0.0d0
00044 end do
00045 end do
00046 end if
00047 end if
00048
00049
00050
00051 if (bh_bctype.eq.'AH'.or.bh_bctype.eq.'PG') then
00052
00053 call alloc_array2d(psi_bhsurf, 0, ntg, 0, npg)
00054 call alloc_array2d(dpsi_bhsurf, 0, ntg, 0, npg)
00055
00056 psi_bhsurf(0:ntg,0:npg) = psi(0,0:ntg,0:npg)
00057
00058 if (char_mp.eq.'psi '.or.char_mp.eq.'alps') then
00059 do ipg = 0, npg
00060 do itg = 0, ntg
00061 call grdr_gridpoint_type0_nosym(psi,deriv,0,itg,ipg)
00062 dpsi_bhsurf(itg,ipg) = deriv
00063 end do
00064 end do
00065
00066 do ipg = 1, npg
00067 do itg = 1, ntg
00068 call interpo_linear_type0_2Dsurf(dpsidr,dpsi_bhsurf,itg,ipg)
00069 call interpo_linear_type0_2Dsurf(psigc,psi_bhsurf,itg,ipg)
00070 psigc3 = psigc**3
00071 Aij_sisj = 0.0d0
00072 do ii = 1, 3
00073 do jj = 1, 3
00074 work(1:2,1:2) = tfkij_grid(0,itg-1:itg,ipg-1:ipg,ii,jj)
00075 call interpo_linear1p_type0_2Dsurf(Aij_surf,work)
00076 si = hvec_bh_cbh_xg(itg,ipg,ii)/rgin
00077 sj = hvec_bh_cbh_xg(itg,ipg,jj)/rgin
00078 Aij_sisj = Aij_sisj + Aij_surf*si*sj
00079 end do
00080 end do
00081 sou_surf(itg,ipg) = 2.0d0*rgin*(-dpsidr - 0.25d0*psigc3*Aij_sisj)
00082 dsou_surf(itg,ipg)= - 0.5d0*psigc/rgin - 0.25d0*psigc3*Aij_sisj
00083 end do
00084 end do
00085 if (char_mp.eq.'alps') then
00086
00087 sou_surf(1:ntg,1:npg) = alph_bh*psigc
00088 dsou_surf(1:ntg,1:npg)= alph_bh*dsou_surf(1:ntg,1:npg)
00089 end if
00090 end if
00091
00092 if (char_mp.eq.'bvxd'.or.char_mp.eq.'bvyd'.or.char_mp.eq.'bvzd') then
00093 if (char_mp.eq.'bvxd') ii = 1
00094 if (char_mp.eq.'bvyd') ii = 2
00095 if (char_mp.eq.'bvzd') ii = 3
00096
00097 do ipg = 1, npg
00098 do itg = 1, ntg
00099 call interpo_linear_type0_2Dsurf(psigc,psi_bhsurf,itg,ipg)
00100 psigcinv2 = 1.0d0/psigc**2
00101 si = hvec_bh_cbh_xg(itg,ipg,ii)/rgin
00102 vphi_cm = hvec_bh_cm_phig(itg,ipg,ii)
00103 vphi_cbh = hvec_bh_cbh_spin(itg,ipg,ii)
00104 if (bh_bctype.eq.'PG') then
00105 vphi_cm = 0.0d0
00106 if (char_mp.eq.'bvyd') vphi_cm = - dis
00107 end if
00108 sou_surf(itg,ipg) = alph_bh*psigcinv2*si &
00109 & - ome_bh*vphi_cm - spin_bh*vphi_cbh
00110 end do
00111 end do
00112 end if
00113
00114 deallocate(psi_bhsurf)
00115 deallocate(dpsi_bhsurf)
00116
00117 end if
00118
00119 end subroutine bh_boundary_CF
