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!! @author Matthew Meineke |
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!! @author Christopher Fennel |
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!! @author J. Daniel Gezelter |
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!! @version $Id: calc_sticky_pair.F90,v 1.11 2003-07-17 20:32:24 gezelter Exp $, $Date: 2003-07-17 20:32:24 $, $Name: not supported by cvs2svn $, $Revision: 1.11 $ |
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!! @version $Id: calc_sticky_pair.F90,v 1.17 2004-05-07 21:35:04 gezelter Exp $, $Date: 2004-05-07 21:35:04 $, $Name: not supported by cvs2svn $, $Revision: 1.17 $ |
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module sticky_pair |
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real( kind = dp ), save :: SSD_ru = 0.0_dp |
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real( kind = dp ), save :: SSD_rlp = 0.0_dp |
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real( kind = dp ), save :: SSD_rup = 0.0_dp |
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real( kind = dp ), save :: SSD_rbig = 0.0_dp |
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public :: check_sticky_FF |
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public :: set_sticky_params |
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SSD_ru = sticky_ru |
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SSD_rlp = sticky_rlp |
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SSD_rup = sticky_rup |
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if (SSD_ru .gt. SSD_rup) then |
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SSD_rbig = SSD_ru |
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else |
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SSD_rbig = SSD_rup |
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endif |
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sticky_initialized = .true. |
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return |
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end subroutine set_sticky_params |
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subroutine do_sticky_pair(atom1, atom2, d, rij, r2, A, pot, f, t, & |
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subroutine do_sticky_pair(atom1, atom2, d, rij, r2, sw, vpair, pot, A,f, t, & |
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do_pot, do_stress) |
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!! This routine does only the sticky portion of the SSD potential |
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integer, intent(in) :: atom1, atom2 |
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real (kind=dp), intent(inout) :: rij, r2 |
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real (kind=dp), dimension(3), intent(in) :: d |
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real (kind=dp) :: pot |
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real (kind=dp), dimension(9,getNlocal()) :: A |
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real (kind=dp), dimension(3,getNlocal()) :: f |
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real (kind=dp), dimension(3,getNlocal()) :: t |
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real (kind=dp) :: pot, vpair, sw |
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real (kind=dp), dimension(9,nLocal) :: A |
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real (kind=dp), dimension(3,nLocal) :: f |
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real (kind=dp), dimension(3,nLocal) :: t |
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logical, intent(in) :: do_pot, do_stress |
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real (kind=dp) :: xi, yi, zi, xj, yj, zj, xi2, yi2, zi2, xj2, yj2, zj2 |
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real (kind=dp) :: rijtest, rjitest |
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real (kind=dp) :: radcomxi, radcomyi, radcomzi |
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real (kind=dp) :: radcomxj, radcomyj, radcomzj |
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integer :: id1, id2 |
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if (.not.sticky_initialized) then |
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write(*,*) 'Sticky forces not initialized!' |
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return |
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endif |
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if ( rij .LE. SSD_rup ) then |
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if ( rij .LE. SSD_rbig ) then |
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r3 = r2*rij |
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r5 = r3*r2 |
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wjp = zjf*zjf*zjs*zjs - SSD_w0 |
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wp = wip + wjp |
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vpair = vpair + 0.5d0*(SSD_v0*s*w + SSD_v0p*sp*wp) |
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if (do_pot) then |
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#ifdef IS_MPI |
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pot_row(atom1) = pot_row(atom1) + 0.25d0*(SSD_v0*s*w + SSD_v0p*sp*wp) |
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pot_col(atom2) = pot_col(atom2) + 0.25d0*(SSD_v0*s*w + SSD_v0p*sp*wp) |
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pot_row(atom1) = pot_row(atom1) + 0.25d0*(SSD_v0*s*w + SSD_v0p*sp*wp)*sw |
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pot_col(atom2) = pot_col(atom2) + 0.25d0*(SSD_v0*s*w + SSD_v0p*sp*wp)*sw |
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#else |
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pot = pot + 0.5d0*(SSD_v0*s*w + SSD_v0p*sp*wp) |
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pot = pot + 0.5d0*(SSD_v0*s*w + SSD_v0p*sp*wp)*sw |
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#endif |
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endif |
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! do the torques first since they are easy: |
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! remember that these are still in the body fixed axes |
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txi = 0.5d0*(SSD_v0*s*dwidux + SSD_v0p*sp*dwipdux) |
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tyi = 0.5d0*(SSD_v0*s*dwiduy + SSD_v0p*sp*dwipduy) |
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tzi = 0.5d0*(SSD_v0*s*dwiduz + SSD_v0p*sp*dwipduz) |
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txi = 0.5d0*(SSD_v0*s*dwidux + SSD_v0p*sp*dwipdux)*sw |
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tyi = 0.5d0*(SSD_v0*s*dwiduy + SSD_v0p*sp*dwipduy)*sw |
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tzi = 0.5d0*(SSD_v0*s*dwiduz + SSD_v0p*sp*dwipduz)*sw |
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txj = 0.5d0*(SSD_v0*s*dwjdux + SSD_v0p*sp*dwjpdux) |
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tyj = 0.5d0*(SSD_v0*s*dwjduy + SSD_v0p*sp*dwjpduy) |
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tzj = 0.5d0*(SSD_v0*s*dwjduz + SSD_v0p*sp*dwjpduz) |
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> |
txj = 0.5d0*(SSD_v0*s*dwjdux + SSD_v0p*sp*dwjpdux)*sw |
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> |
tyj = 0.5d0*(SSD_v0*s*dwjduy + SSD_v0p*sp*dwjpduy)*sw |
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> |
tzj = 0.5d0*(SSD_v0*s*dwjduz + SSD_v0p*sp*dwjpduz)*sw |
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! go back to lab frame using transpose of rotation matrix: |
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! first rotate the i terms back into the lab frame: |
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268 |
< |
radcomxi = SSD_v0*s*dwidx+SSD_v0p*sp*dwipdx |
269 |
< |
radcomyi = SSD_v0*s*dwidy+SSD_v0p*sp*dwipdy |
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< |
radcomzi = SSD_v0*s*dwidz+SSD_v0p*sp*dwipdz |
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> |
radcomxi = (SSD_v0*s*dwidx+SSD_v0p*sp*dwipdx)*sw |
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> |
radcomyi = (SSD_v0*s*dwidy+SSD_v0p*sp*dwipdy)*sw |
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> |
radcomzi = (SSD_v0*s*dwidz+SSD_v0p*sp*dwipdz)*sw |
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272 |
< |
radcomxj = SSD_v0*s*dwjdx+SSD_v0p*sp*dwjpdx |
273 |
< |
radcomyj = SSD_v0*s*dwjdy+SSD_v0p*sp*dwjpdy |
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< |
radcomzj = SSD_v0*s*dwjdz+SSD_v0p*sp*dwjpdz |
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> |
radcomxj = (SSD_v0*s*dwjdx+SSD_v0p*sp*dwjpdx)*sw |
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> |
radcomyj = (SSD_v0*s*dwjdy+SSD_v0p*sp*dwjpdy)*sw |
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> |
radcomzj = (SSD_v0*s*dwjdz+SSD_v0p*sp*dwjpdz)*sw |
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#ifdef IS_MPI |
277 |
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fxii = a_Row(1,atom1)*(radcomxi) + & |
348 |
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#endif |
349 |
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350 |
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if (do_stress) then |
342 |
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if (molMembershipList(atom1) .ne. molMembershipList(atom2)) then |
351 |
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352 |
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#ifdef IS_MPI |
353 |
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id1 = tagRow(atom1) |
354 |
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id2 = tagColumn(atom2) |
355 |
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#else |
356 |
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id1 = atom1 |
357 |
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id2 = atom2 |
358 |
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#endif |
359 |
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|
360 |
+ |
if (molMembershipList(id1) .ne. molMembershipList(id2)) then |
361 |
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362 |
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! because the d vector is the rj - ri vector, and |
363 |
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! because fxradial, fyradial, and fzradial are the |
364 |
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! (positive) force on atom i (negative on atom j) we need |