| 50 |
|
!! @author Matthew Meineke |
| 51 |
|
!! @author Christopher Fennell |
| 52 |
|
!! @author J. Daniel Gezelter |
| 53 |
< |
!! @version $Id: sticky.F90,v 1.9 2005-05-12 19:43:48 chrisfen Exp $, $Date: 2005-05-12 19:43:48 $, $Name: not supported by cvs2svn $, $Revision: 1.9 $ |
| 53 |
> |
!! @version $Id: sticky.F90,v 1.12 2005-05-18 19:06:22 chrisfen Exp $, $Date: 2005-05-18 19:06:22 $, $Name: not supported by cvs2svn $, $Revision: 1.12 $ |
| 54 |
|
|
| 55 |
|
module sticky |
| 56 |
|
|
| 513 |
|
end subroutine destroyStickyTypes |
| 514 |
|
|
| 515 |
|
subroutine do_sticky_power_pair(atom1, atom2, d, rij, r2, sw, vpair, fpair, & |
| 516 |
< |
pot, A, f, t, do_pot) |
| 516 |
> |
pot, A, f, t, do_pot, ebalance) |
| 517 |
|
!! We assume that the rotation matrices have already been calculated |
| 518 |
|
!! and placed in the A array. |
| 519 |
|
|
| 527 |
|
real (kind=dp), dimension(9,nLocal) :: A |
| 528 |
|
real (kind=dp), dimension(3,nLocal) :: f |
| 529 |
|
real (kind=dp), dimension(3,nLocal) :: t |
| 530 |
+ |
real (kind=dp), intent(in) :: ebalance |
| 531 |
|
logical, intent(in) :: do_pot |
| 532 |
|
|
| 533 |
|
real (kind=dp) :: xi, yi, zi, xj, yj, zj, xi2, yi2, zi2, xj2, yj2, zj2 |
| 534 |
|
real (kind=dp) :: xihat, yihat, zihat, xjhat, yjhat, zjhat |
| 535 |
|
real (kind=dp) :: rI, rI2, rI3, rI4, rI5, rI6, rI7, s, sp, dsdr, dspdr |
| 536 |
< |
real (kind=dp) :: wi, wj, w, wip, wjp, wp, wi2, wj2, wip3, wjp3 |
| 536 |
> |
real (kind=dp) :: wi, wj, w, wi2, wj2 |
| 537 |
|
real (kind=dp) :: dwidx, dwidy, dwidz, dwjdx, dwjdy, dwjdz |
| 537 |
– |
real (kind=dp) :: dwipdx, dwipdy, dwipdz, dwjpdx, dwjpdy, dwjpdz |
| 538 |
|
real (kind=dp) :: dwidux, dwiduy, dwiduz, dwjdux, dwjduy, dwjduz |
| 539 |
– |
real (kind=dp) :: dwipdux, dwipduy, dwipduz, dwjpdux, dwjpduy, dwjpduz |
| 540 |
– |
real (kind=dp) :: zif, zis, zjf, zjs, uglyi, uglyj |
| 539 |
|
real (kind=dp) :: drdx, drdy, drdz |
| 540 |
|
real (kind=dp) :: txi, tyi, tzi, txj, tyj, tzj |
| 541 |
|
real (kind=dp) :: fxii, fyii, fzii, fxjj, fyjj, fzjj |
| 548 |
|
integer :: me1, me2 |
| 549 |
|
real (kind=dp) :: w0, v0, v0p, rl, ru, rlp, rup, rbig |
| 550 |
|
real (kind=dp) :: zi3, zi4, zi5, zj3, zj4, zj5 |
| 551 |
< |
real (kind=dp) :: oSw1, oSw2, prodVal |
| 552 |
< |
real (kind=dp) :: prei1, prei2, prei, prej1, prej2, prej |
| 555 |
< |
real (kind=dp) :: walt, walti, waltj, dwaltidx, dwaltidy, dwaltidz |
| 556 |
< |
real (kind=dp) :: dwaltjdx, dwaltjdy, dwaltjdz |
| 557 |
< |
real (kind=dp) :: dwaltidux, dwaltiduy, dwaltiduz |
| 558 |
< |
real (kind=dp) :: dwaltjdux, dwaltjduy, dwaltjduz |
| 559 |
< |
real (kind=dp) :: doSw1idx, doSw1idy, doSw1idz, doSw1jdx, doSw1jdy, doSw1jdz |
| 560 |
< |
real (kind=dp) :: doSw1idux, doSw1iduy, doSw1iduz |
| 561 |
< |
real (kind=dp) :: doSw1jdux, doSw1jduy, doSw1jduz |
| 562 |
< |
real (kind=dp) :: doSw2idx, doSw2idy, doSw2idz, doSw2jdx, doSw2jdy, doSw2jdz |
| 563 |
< |
real (kind=dp) :: doSw2idux, doSw2iduy, doSw2iduz |
| 564 |
< |
real (kind=dp) :: doSw2jdux, doSw2jduy, doSw2jduz |
| 565 |
< |
|
| 551 |
> |
real (kind=dp) :: frac1, frac2 |
| 552 |
> |
|
| 553 |
|
if (.not.allocated(StickyMap)) then |
| 554 |
|
call handleError("sticky", "no StickyMap was present before first call of do_sticky_power_pair!") |
| 555 |
|
return |
| 595 |
|
rI4 = rI2*rI2 |
| 596 |
|
rI5 = rI3*rI2 |
| 597 |
|
rI6 = rI3*rI3 |
| 598 |
< |
rI7 = rI5*rI2 |
| 598 |
> |
rI7 = rI4*rI3 |
| 599 |
|
|
| 600 |
|
drdx = d(1) * rI |
| 601 |
|
drdy = d(2) * rI |
| 634 |
|
zi2 = zi*zi |
| 635 |
|
zi3 = zi2*zi |
| 636 |
|
zi4 = zi2*zi2 |
| 637 |
< |
zi5 = zi4*zi |
| 637 |
> |
zi5 = zi3*zi2 |
| 638 |
|
xihat = xi*rI |
| 639 |
|
yihat = yi*rI |
| 640 |
|
zihat = zi*rI |
| 644 |
|
zj2 = zj*zj |
| 645 |
|
zj3 = zj2*zj |
| 646 |
|
zj4 = zj2*zj2 |
| 647 |
< |
zj5 = zj4*zj |
| 647 |
> |
zj5 = zj3*zj2 |
| 648 |
|
xjhat = xj*rI |
| 649 |
|
yjhat = yj*rI |
| 650 |
|
zjhat = zj*rI |
| 651 |
|
|
| 652 |
|
call calc_sw_fnc(rij, rl, ru, rlp, rup, s, sp, dsdr, dspdr) |
| 653 |
|
|
| 654 |
< |
wi = 2.0d0*(xi2-yi2)*zi * rI3 |
| 655 |
< |
wj = 2.0d0*(xj2-yj2)*zj * rI3 |
| 654 |
> |
frac1 = 1.5d0 |
| 655 |
> |
frac2 = 0.5d0 |
| 656 |
|
|
| 657 |
< |
! prodVal = zihat*zjhat |
| 658 |
< |
! if (prodVal .ge. 0.0d0) then |
| 659 |
< |
! wi = 0.0d0 |
| 673 |
< |
! wj = 0.0d0 |
| 674 |
< |
! endif |
| 675 |
< |
|
| 657 |
> |
wi = 2.0d0*(xi2-yi2)*zi*rI3 |
| 658 |
> |
wj = 2.0d0*(xj2-yj2)*zj*rI3 |
| 659 |
> |
|
| 660 |
|
wi2 = wi*wi |
| 661 |
|
wj2 = wj*wj |
| 662 |
|
|
| 663 |
< |
w = wi*wi2+wj*wj2 |
| 680 |
< |
|
| 681 |
< |
zif = zihat - 0.6d0 |
| 682 |
< |
zis = zihat + 0.8d0 |
| 683 |
< |
|
| 684 |
< |
zjf = zjhat - 0.6d0 |
| 685 |
< |
zjs = zjhat + 0.8d0 |
| 663 |
> |
w = frac1*wi*wi2 + frac2*wi + frac1*wj*wj2 + frac2*wj |
| 664 |
|
|
| 665 |
< |
wip = zif*zif*zis*zis - w0 |
| 688 |
< |
wjp = zjf*zjf*zjs*zjs - w0 |
| 689 |
< |
wp = wip + wjp |
| 690 |
< |
|
| 691 |
< |
!wip = zihat - 0.2d0 |
| 692 |
< |
!wjp = zjhat - 0.2d0 |
| 693 |
< |
!wip3 = wip*wip*wip |
| 694 |
< |
!wjp3 = wjp*wjp*wjp |
| 665 |
> |
vpair = vpair + 0.5d0*(v0*s*w) + ebalance |
| 666 |
|
|
| 696 |
– |
!wp = wip3*wip + wjp3*wjp |
| 697 |
– |
|
| 698 |
– |
vpair = vpair + 0.5d0*(v0*s*w + v0p*sp*wp) |
| 699 |
– |
|
| 667 |
|
if (do_pot) then |
| 668 |
|
#ifdef IS_MPI |
| 669 |
< |
pot_row(atom1) = pot_row(atom1) + 0.25d0*(v0*s*w + v0p*sp*wp)*sw |
| 670 |
< |
pot_col(atom2) = pot_col(atom2) + 0.25d0*(v0*s*w + v0p*sp*wp)*sw |
| 669 |
> |
pot_row(atom1) = pot_row(atom1) + 0.25d0*(v0*s*w)*sw |
| 670 |
> |
pot_col(atom2) = pot_col(atom2) + 0.25d0*(v0*s*w)*sw |
| 671 |
|
#else |
| 672 |
< |
pot = pot + 0.5d0*(v0*s*w + v0p*sp*wp)*sw |
| 672 |
> |
pot = pot + 0.5d0*(v0*s*w)*sw + ebalance |
| 673 |
|
#endif |
| 674 |
|
endif |
| 675 |
|
|
| 676 |
< |
dwidx = 3.0d0*wi2*( 4.0d0*xi*zi*rI3 - 6.0d0*xi*zi*(xi2-yi2)*rI5 ) |
| 677 |
< |
dwidy = 3.0d0*wi2*( -4.0d0*yi*zi*rI3 - 6.0d0*yi*zi*(xi2-yi2)*rI5 ) |
| 678 |
< |
dwidz = 3.0d0*wi2*( 2.0d0*(xi2-yi2)*rI3 - 6.0d0*zi2*(xi2-yi2)*rI5 ) |
| 676 |
> |
dwidx = ( 4.0d0*xi*zi*rI3 - 6.0d0*xi*zi*(xi2-yi2)*rI5 ) |
| 677 |
> |
dwidy = ( -4.0d0*yi*zi*rI3 - 6.0d0*yi*zi*(xi2-yi2)*rI5 ) |
| 678 |
> |
dwidz = ( 2.0d0*(xi2-yi2)*rI3 - 6.0d0*zi2*(xi2-yi2)*rI5 ) |
| 679 |
> |
|
| 680 |
> |
dwidx = frac1*3.0d0*wi2*dwidx + frac2*dwidx |
| 681 |
> |
dwidy = frac1*3.0d0*wi2*dwidy + frac2*dwidy |
| 682 |
> |
dwidz = frac1*3.0d0*wi2*dwidz + frac2*dwidz |
| 683 |
|
|
| 684 |
< |
dwjdx = 3.0d0*wj2*( 4.0d0*xj*zj*rI3 - 6.0d0*xj*zj*(xj2-yj2)*rI5 ) |
| 685 |
< |
dwjdy = 3.0d0*wj2*( -4.0d0*yj*zj*rI3 - 6.0d0*yj*zj*(xj2-yj2)*rI5 ) |
| 686 |
< |
dwjdz = 3.0d0*wj2*( 2.0d0*(xj2-yj2)*rI3 - 6.0d0*zj2*(xj2-yj2)*rI5 ) |
| 684 |
> |
dwjdx = ( 4.0d0*xj*zj*rI3 - 6.0d0*xj*zj*(xj2-yj2)*rI5 ) |
| 685 |
> |
dwjdy = ( -4.0d0*yj*zj*rI3 - 6.0d0*yj*zj*(xj2-yj2)*rI5 ) |
| 686 |
> |
dwjdz = ( 2.0d0*(xj2-yj2)*rI3 - 6.0d0*zj2*(xj2-yj2)*rI5 ) |
| 687 |
|
|
| 688 |
< |
uglyi = zif*zif*zis + zif*zis*zis |
| 689 |
< |
uglyj = zjf*zjf*zjs + zjf*zjs*zjs |
| 690 |
< |
|
| 720 |
< |
dwipdx = -2.0d0*xi*zi*uglyi*rI3 |
| 721 |
< |
dwipdy = -2.0d0*yi*zi*uglyi*rI3 |
| 722 |
< |
dwipdz = 2.0d0*(rI - zi2*rI3)*uglyi |
| 723 |
< |
|
| 724 |
< |
dwjpdx = -2.0d0*xj*zj*uglyj*rI3 |
| 725 |
< |
dwjpdy = -2.0d0*yj*zj*uglyj*rI3 |
| 726 |
< |
dwjpdz = 2.0d0*(rI - zj2*rI3)*uglyj |
| 727 |
< |
|
| 728 |
< |
!dwipdx = -4.0d0*wip3*zi*xihat |
| 729 |
< |
!dwipdy = -4.0d0*wip3*zi*yihat |
| 730 |
< |
!dwipdz = -4.0d0*wip3*(zi2 - 1.0d0)*rI |
| 731 |
< |
|
| 732 |
< |
!dwjpdx = -4.0d0*wjp3*zj*xjhat |
| 733 |
< |
!dwjpdy = -4.0d0*wjp3*zj*yjhat |
| 734 |
< |
!dwjpdz = -4.0d0*wjp3*(zj2 - 1.0d0)*rI |
| 688 |
> |
dwjdx = frac1*3.0d0*wj2*dwjdx + frac2*dwjdx |
| 689 |
> |
dwjdy = frac1*3.0d0*wj2*dwjdy + frac2*dwjdy |
| 690 |
> |
dwjdz = frac1*3.0d0*wj2*dwjdz + frac2*dwjdz |
| 691 |
|
|
| 692 |
< |
!dwipdx = 0.0d0 |
| 693 |
< |
!dwipdy = 0.0d0 |
| 694 |
< |
!dwipdz = 0.0d0 |
| 692 |
> |
dwidux = ( 4.0d0*(yi*zi2 + 0.5d0*yi*(xi2-yi2))*rI3 ) |
| 693 |
> |
dwiduy = ( 4.0d0*(xi*zi2 - 0.5d0*xi*(xi2-yi2))*rI3 ) |
| 694 |
> |
dwiduz = ( -8.0d0*xi*yi*zi*rI3 ) |
| 695 |
|
|
| 696 |
< |
!dwjpdx = 0.0d0 |
| 697 |
< |
!dwjpdy = 0.0d0 |
| 698 |
< |
!dwjpdz = 0.0d0 |
| 743 |
< |
|
| 744 |
< |
dwidux = 3.0d0*wi2*( 4.0d0*(yi*zi2 + 0.5d0*yi*(xi2-yi2))*rI3 ) |
| 745 |
< |
dwiduy = 3.0d0*wi2*( 4.0d0*(xi*zi2 - 0.5d0*xi*(xi2-yi2))*rI3 ) |
| 746 |
< |
dwiduz = 3.0d0*wi2*( -8.0d0*xi*yi*zi*rI3 ) |
| 696 |
> |
dwidux = frac1*3.0d0*wi2*dwidux + frac2*dwidux |
| 697 |
> |
dwiduy = frac1*3.0d0*wi2*dwiduy + frac2*dwiduy |
| 698 |
> |
dwiduz = frac1*3.0d0*wi2*dwiduz + frac2*dwiduz |
| 699 |
|
|
| 700 |
< |
dwjdux = 3.0d0*wj2*( 4.0d0*(yj*zj2 + 0.5d0*yj*(xj2-yj2))*rI3 ) |
| 701 |
< |
dwjduy = 3.0d0*wj2*( 4.0d0*(xj*zj2 - 0.5d0*xj*(xj2-yj2))*rI3 ) |
| 702 |
< |
dwjduz = 3.0d0*wj2*( -8.0d0*xj*yj*zj*rI3 ) |
| 700 |
> |
dwjdux = ( 4.0d0*(yj*zj2 + 0.5d0*yj*(xj2-yj2))*rI3 ) |
| 701 |
> |
dwjduy = ( 4.0d0*(xj*zj2 - 0.5d0*xj*(xj2-yj2))*rI3 ) |
| 702 |
> |
dwjduz = ( -8.0d0*xj*yj*zj*rI3 ) |
| 703 |
|
|
| 704 |
< |
dwipdux = 2.0d0*yi*uglyi*rI |
| 705 |
< |
dwipduy = -2.0d0*xi*uglyi*rI |
| 706 |
< |
dwipduz = 0.0d0 |
| 704 |
> |
dwjdux = frac1*3.0d0*wj2*dwjdux + frac2*dwjdux |
| 705 |
> |
dwjduy = frac1*3.0d0*wj2*dwjduy + frac2*dwjduy |
| 706 |
> |
dwjduz = frac1*3.0d0*wj2*dwjduz + frac2*dwjduz |
| 707 |
|
|
| 756 |
– |
dwjpdux = 2.0d0*yj*uglyj*rI |
| 757 |
– |
dwjpduy = -2.0d0*xj*uglyj*rI |
| 758 |
– |
dwjpduz = 0.0d0 |
| 759 |
– |
|
| 760 |
– |
!dwipdux = 4.0d0*wip3*yihat |
| 761 |
– |
!dwipduy = -4.0d0*wip3*xihat |
| 762 |
– |
!dwipduz = 0.0d0 |
| 763 |
– |
|
| 764 |
– |
!dwjpdux = 4.0d0*wjp3*yjhat |
| 765 |
– |
!dwjpduy = -4.0d0*wjp3*xjhat |
| 766 |
– |
!dwjpduz = 0.0d0 |
| 767 |
– |
|
| 768 |
– |
!dwipdux = 0.0d0 |
| 769 |
– |
!dwipduy = 0.0d0 |
| 770 |
– |
!dwipduz = 0.0d0 |
| 771 |
– |
|
| 772 |
– |
!dwjpdux = 0.0d0 |
| 773 |
– |
!dwjpduy = 0.0d0 |
| 774 |
– |
!dwjpduz = 0.0d0 |
| 775 |
– |
|
| 708 |
|
! do the torques first since they are easy: |
| 709 |
|
! remember that these are still in the body fixed axes |
| 710 |
|
|
| 711 |
< |
txi = 0.5d0*(v0*s*dwidux + v0p*sp*dwipdux)*sw |
| 712 |
< |
tyi = 0.5d0*(v0*s*dwiduy + v0p*sp*dwipduy)*sw |
| 713 |
< |
tzi = 0.5d0*(v0*s*dwiduz + v0p*sp*dwipduz)*sw |
| 711 |
> |
txi = 0.5d0*(v0*s*dwidux)*sw |
| 712 |
> |
tyi = 0.5d0*(v0*s*dwiduy)*sw |
| 713 |
> |
tzi = 0.5d0*(v0*s*dwiduz)*sw |
| 714 |
|
|
| 715 |
< |
txj = 0.5d0*(v0*s*dwjdux + v0p*sp*dwjpdux)*sw |
| 716 |
< |
tyj = 0.5d0*(v0*s*dwjduy + v0p*sp*dwjpduy)*sw |
| 717 |
< |
tzj = 0.5d0*(v0*s*dwjduz + v0p*sp*dwjpduz)*sw |
| 715 |
> |
txj = 0.5d0*(v0*s*dwjdux)*sw |
| 716 |
> |
tyj = 0.5d0*(v0*s*dwjduy)*sw |
| 717 |
> |
tzj = 0.5d0*(v0*s*dwjduz)*sw |
| 718 |
|
|
| 719 |
|
! go back to lab frame using transpose of rotation matrix: |
| 720 |
|
|
| 745 |
|
|
| 746 |
|
! first rotate the i terms back into the lab frame: |
| 747 |
|
|
| 748 |
< |
radcomxi = (v0*s*dwidx+v0p*sp*dwipdx)*sw |
| 749 |
< |
radcomyi = (v0*s*dwidy+v0p*sp*dwipdy)*sw |
| 750 |
< |
radcomzi = (v0*s*dwidz+v0p*sp*dwipdz)*sw |
| 748 |
> |
radcomxi = (v0*s*dwidx)*sw |
| 749 |
> |
radcomyi = (v0*s*dwidy)*sw |
| 750 |
> |
radcomzi = (v0*s*dwidz)*sw |
| 751 |
|
|
| 752 |
< |
radcomxj = (v0*s*dwjdx+v0p*sp*dwjpdx)*sw |
| 753 |
< |
radcomyj = (v0*s*dwjdy+v0p*sp*dwjpdy)*sw |
| 754 |
< |
radcomzj = (v0*s*dwjdz+v0p*sp*dwjpdz)*sw |
| 752 |
> |
radcomxj = (v0*s*dwjdx)*sw |
| 753 |
> |
radcomyj = (v0*s*dwjdy)*sw |
| 754 |
> |
radcomzj = (v0*s*dwjdz)*sw |
| 755 |
|
|
| 756 |
|
#ifdef IS_MPI |
| 757 |
|
fxii = a_Row(1,atom1)*(radcomxi) + & |
| 805 |
|
|
| 806 |
|
! now assemble these with the radial-only terms: |
| 807 |
|
|
| 808 |
< |
fxradial = 0.5d0*((v0*dsdr*w + v0p*dspdr*wp)*drdx + fxii + fxji) |
| 809 |
< |
fyradial = 0.5d0*((v0*dsdr*w + v0p*dspdr*wp)*drdy + fyii + fyji) |
| 810 |
< |
fzradial = 0.5d0*((v0*dsdr*w + v0p*dspdr*wp)*drdz + fzii + fzji) |
| 808 |
> |
fxradial = 0.5d0*(v0*dsdr*w*drdx + fxii + fxji + ebalance*xihat) |
| 809 |
> |
fyradial = 0.5d0*(v0*dsdr*w*drdy + fyii + fyji + ebalance*yihat) |
| 810 |
> |
fzradial = 0.5d0*(v0*dsdr*w*drdz + fzii + fzji + ebalance*zihat) |
| 811 |
|
|
| 812 |
|
#ifdef IS_MPI |
| 813 |
|
f_Row(1,atom1) = f_Row(1,atom1) + fxradial |
