************************************************************************* * * Subroutine inter_B.f * * it computes the magnetic field in a chosen point x,y,z inside or * outside the magnetic cavity, using a trilinear interpolation of * B field measurements (read before by means of ./read_B.f) * if the point falls outside the interpolation volume, set the field to 0 * * needs: * - ../common/common_B_inner.f common file for the inner magnetic field map * - ./inter_B_inner.f common file for the inner magnetic field map * - ../common/common_B_outer.f common file for the outer magnetic field map * - ./inter_B_outer.f common file for the outer magnetic field map * * to be called after ./read_B.f (magnetic field map reading subroutine) * * input: coordinates in m * output: magnetic field in T * ************************************************************************* subroutine inter_B(x,y,z,res) !coordinates in m, magnetic field in T implicit double precision (a-h,o-z) include '../common/common_B_inner.f' include '../common/common_B_outer.f' c------------------------------------------------------------------------ c c local variables c c------------------------------------------------------------------------ real*8 x,y,z !point of interest real*8 res(3) !interpolated B components: res = (Bx, By, Bz) real*8 zl,zu real*8 resu(3),resl(3) c------------------------------------------------------------------------ c c set the field outside the interpolation volume to be 0 c c------------------------------------------------------------------------ do ip=1,3 res(ip)=0. enddo c------------------------------------------------------------------------ c c check if the point falls inside the interpolation volumes c c------------------------------------------------------------------------ * ----------------------- * INNER MAP * ----------------------- if( $ (x.ge.edgexmin).and.(x.le.edgexmax) $ .and.(y.ge.edgeymin).and.(y.le.edgeymax) $ .and.(z.ge.edgezmin).and.(z.le.edgezmax) $ ) then call inter_B_inner(x,y,z,res) c print*,'INNER - ',z,res endif * ----------------------- * OUTER MAP * ----------------------- if( $ ((x.ge.edgeuxmin).and.(x.le.edgeuxmax) $ .and.(y.ge.edgeuymin).and.(y.le.edgeuymax) $ .and.(z.ge.edgeuzmin).and.(z.le.edgeuzmax)) $ .or. $ ((x.ge.edgelxmin).and.(x.le.edgelxmax) $ .and.(y.ge.edgelymin).and.(y.le.edgelymax) $ .and.(z.ge.edgelzmin).and.(z.le.edgelzmax)) $ ) then call inter_B_outer(x,y,z,res) c res(2)=res(2)*10 c print*,'OUTER - ',z,res endif * -------------------------------- * GAP between INNER and OUTER MAPS * -------------------------------- if( $ (x.gt.edgexmin).and.(x.lt.edgexmax) $ .and.(y.gt.edgeymin).and.(y.lt.edgeymax) $ .and.(z.gt.edgezmax).and.(z.lt.edgeuzmin) $ )then zu = edgeuzmin zl = edgezmax call inter_B_inner(x,y,zl,resu) call inter_B_outer(x,y,zu,resl) do i=1,3 res(i) = z * ((resu(i)-resl(i))/(zu-zl)) $ + resu(i) $ - zu * ((resu(i)-resl(i))/(zu-zl)) enddo c print*,'GAP U - ',z,res elseif( $ (x.gt.edgexmin).and.(x.lt.edgexmax) $ .and.(y.gt.edgeymin).and.(y.lt.edgeymax) $ .and.(z.gt.edgelzmax).and.(z.lt.edgezmin) $ ) then zu = edgezmin zl = edgelzmax call inter_B_inner(x,y,zu,resu) call inter_B_outer(x,y,zl,resl) do i=1,3 res(i) = z * ((resu(i)-resl(i))/(zu-zl)) $ + resu(i) $ - zu * ((resu(i)-resl(i))/(zu-zl)) enddo c print*,'GAP D - ',z,res endif return end include './inter_B_inner.f' include './inter_B_outer.f'