OOPSE/libmdtools/calc_dipole_dipole.F90

module dipole_dipole
  
  use force_globals
  use definitions
  use atype_module
  use vector_class
  use simulation
#ifdef IS_MPI
  use mpiSimulation
#endif
  implicit none

  PRIVATE
  real(kind=dp), save :: rrf = 0.0
  real(kind=dp), save :: rt  = 0.0
   real(kind=dp), save :: pre = 0.0
  logical, save :: dipole_initialized = .false.


  public::setCutoffsDipole
  public::do_dipole_pair

contains
    
  subroutine setCutoffsDipole(this_rrf, this_rt)
    real(kind=dp), intent(in) :: this_rrf, this_rt
    rrf = this_rrf
    rt = this_rt    
     ! pre converts from mu in units of debye to kcal/mol
    pre = 14.38362_dp

    dipole_initialized = .true.
    
    return
  end subroutine setCutoffsDipole

  subroutine do_dipole_pair(atom1, atom2, d, rij, r2, pot, u_l, f, t, &
       do_pot, do_stress)
    
    logical :: do_pot, do_stress

    integer atom1, atom2, me1, me2, id1, id2
    real(kind=dp) :: rij, mu1, mu2
    real(kind=dp) :: dfact1, dfact2, dip2, r2, r3, r5
    real(kind=dp) :: dudx, dudy, dudz, dudu1x, dudu1y, dudu1z
    real(kind=dp) :: dudu2x, dudu2y, dudu2z, rdotu1, rdotu2, u1dotu2
    real(kind=dp) :: taper, dtdr, vterm

    real( kind = dp ) :: pot
    real( kind = dp ), dimension(3) :: d
    real( kind = dp ), dimension(3,getNlocal()) :: u_l
    real( kind = dp ), dimension(3,getNlocal()) :: f
    real( kind = dp ), dimension(3,getNlocal()) :: t
    
    real (kind = dp), dimension(3) :: ul1
    real (kind = dp), dimension(3) :: ul2

    if (.not.dipole_initialized) then
       write(default_error,*) 'Dipole-dipole not initialized!'
       return
    endif
    
#ifdef IS_MPI
    me1 = atid_Row(atom1)
    ul1(1) = u_l_Row(1,atom1)
    ul1(2) = u_l_Row(2,atom1)
    ul1(3) = u_l_Row(3,atom1)

    me2 = atid_Col(atom2)
    ul2(1) = u_l_Col(1,atom2)
    ul2(2) = u_l_Col(2,atom2)
    ul2(3) = u_l_Col(3,atom2)
#else
    me1 = atid(atom1)
    ul1(1) = u_l(1,atom1)
    ul1(2) = u_l(2,atom1)
    ul1(3) = u_l(3,atom1)

    me2 = atid(atom2)
    ul2(1) = u_l(1,atom2)
    ul2(2) = u_l(2,atom2)
    ul2(3) = u_l(3,atom2)
#endif


    call getElementProperty(atypes, me1, "dipole_moment", mu1)
    call getElementProperty(atypes, me2, "dipole_moment", mu2)

    if (rij.le.rrf) then
       
       if (rij.lt.rt) then
          taper = 1.0d0
          dtdr = 0.0d0
       else
          taper = (rrf + 2.0d0*rij - 3.0d0*rt)*(rrf-rij)**2/ ((rrf-rt)**3)
          dtdr = 6.0d0*(rij*rij - rij*rt - rij*rrf +rrf*rt)/((rrf-rt)**3)
       endif

       r3 = r2*rij
       r5 = r3*r2
       
       rdotu1 = d(1)*ul1(1) + d(2)*ul1(2) + d(3)*ul1(3)
       rdotu2 = d(1)*ul2(1) + d(2)*ul2(2) + d(3)*ul2(3)
       u1dotu2 = ul1(1)*ul2(1) + ul1(2)*ul2(2) + ul1(3)*ul2(3)

       dip2 = pre * mu1 * mu2
       dfact1 = 3.0d0*dip2 / r2
       dfact2 = 3.0d0*dip2 / r5

       vterm = dip2*((u1dotu2/r3) - 3.0d0*(rdotu1*rdotu2/r5))

       if (do_pot) then
#ifdef IS_MPI 
          pot_row(atom1) = pot_row(atom1) + 0.5d0*vterm*taper
          pot_col(atom2) = pot_col(atom2) + 0.5d0*vterm*taper
#else
          pot = pot + vterm*taper
#endif
       endif
       
       dudx = (-dfact1 * d(1) * ((u1dotu2/r3) - &
            (5.0d0*(rdotu1*rdotu2)/r5)) -  &
            dfact2*(ul1(1)*rdotu2 + ul2(1)*rdotu1))*taper + &
            vterm*dtdr*d(1)/rij
       
       dudy = (-dfact1 * d(2) * ((u1dotu2/r3) - &
            (5.0d0*(rdotu1*rdotu2)/r5)) -  &
            dfact2*(ul1(2)*rdotu2 + ul2(2)*rdotu1))*taper + &
            vterm*dtdr*d(2)/rij
       
       dudz = (-dfact1 * d(3) * ((u1dotu2/r3) - &
            (5.0d0*(rdotu1*rdotu2)/r5)) -  &
            dfact2*(ul1(3)*rdotu2 + ul2(3)*rdotu1))*taper +  &
            vterm*dtdr*d(3)/rij

       dudu1x = (dip2*((ul2(1)/r3) - (3.0d0*d(1)*rdotu2/r5)))*taper
       dudu1y = (dip2*((ul2(2)/r3) - (3.0d0*d(2)*rdotu2/r5)))*taper
       dudu1z = (dip2*((ul2(3)/r3) - (3.0d0*d(3)*rdotu2/r5)))*taper

       dudu2x = (dip2*((ul1(1)/r3) - (3.0d0*d(1)*rdotu1/r5)))*taper
       dudu2y = (dip2*((ul1(2)/r3) - (3.0d0*d(2)*rdotu1/r5)))*taper
       dudu2z = (dip2*((ul1(3)/r3) - (3.0d0*d(3)*rdotu1/r5)))*taper
       

#ifdef IS_MPI
       f_Row(1,atom1) = f_Row(1,atom1) + dudx
       f_Row(2,atom1) = f_Row(2,atom1) + dudy
       f_Row(3,atom1) = f_Row(3,atom1) + dudz

       f_Col(1,atom2) = f_Col(1,atom2) - dudx
       f_Col(2,atom2) = f_Col(2,atom2) - dudy
       f_Col(3,atom2) = f_Col(3,atom2) - dudz
       
       t_Row(1,atom1) = t_Row(1,atom1) - ul1(2)*dudu1z + ul1(3)*dudu1y
       t_Row(2,atom1) = t_Row(2,atom1) - ul1(3)*dudu1x + ul1(1)*dudu1z
       t_Row(3,atom1) = t_Row(3,atom1) - ul1(1)*dudu1y + ul1(2)*dudu1x
       
       t_Col(1,atom2) = t_Col(1,atom2) - ul2(2)*dudu2z + ul2(3)*dudu2y
       t_Col(2,atom2) = t_Col(2,atom2) - ul2(3)*dudu2x + ul2(1)*dudu2z
       t_Col(3,atom2) = t_Col(3,atom2) - ul2(1)*dudu2y + ul2(2)*dudu2x
#else
       f(1,atom1) = f(1,atom1) + dudx
       f(2,atom1) = f(2,atom1) + dudy
       f(3,atom1) = f(3,atom1) + dudz
       
       f(1,atom2) = f(1,atom2) - dudx
       f(2,atom2) = f(2,atom2) - dudy
       f(3,atom2) = f(3,atom2) - dudz
       
       t(1,atom1) = t(1,atom1) - ul1(2)*dudu1z + ul1(3)*dudu1y
       t(2,atom1) = t(2,atom1) - ul1(3)*dudu1x + ul1(1)*dudu1z
       t(3,atom1) = t(3,atom1) - ul1(1)*dudu1y + ul1(2)*dudu1x
       
       t(1,atom2) = t(1,atom2) - ul2(2)*dudu2z + ul2(3)*dudu2y
       t(2,atom2) = t(2,atom2) - ul2(3)*dudu2x + ul2(1)*dudu2z
       t(3,atom2) = t(3,atom2) - ul2(1)*dudu2y + ul2(2)*dudu2x
#endif

       if (do_stress) then          

#ifdef IS_MPI
          id1 = tagRow(atom1)
          id2 = tagColumn(atom2)
#else
          id1 = atom1
          id2 = atom2
#endif                 
          if (molMembershipList(id1) .ne. molMembershipList(id2)) then

             ! because the d vector is the rj - ri vector, and 
             ! because dudx, dudy, dudz are the (positive) force on
             ! atom i (negative on atom j) we need a negative sign here:

             tau_Temp(1) = tau_Temp(1) - d(1) * dudx
             tau_Temp(2) = tau_Temp(2) - d(1) * dudy
             tau_Temp(3) = tau_Temp(3) - d(1) * dudz
             tau_Temp(4) = tau_Temp(4) - d(2) * dudx
             tau_Temp(5) = tau_Temp(5) - d(2) * dudy
             tau_Temp(6) = tau_Temp(6) - d(2) * dudz
             tau_Temp(7) = tau_Temp(7) - d(3) * dudx
             tau_Temp(8) = tau_Temp(8) - d(3) * dudy
             tau_Temp(9) = tau_Temp(9) - d(3) * dudz

             virial_Temp = virial_Temp + &
                  (tau_Temp(1) + tau_Temp(5) + tau_Temp(9))

          endif          
       endif
       
    endif
    
    return
  end subroutine do_dipole_pair
  
end module dipole_dipole
Revision:	831
Committed:	Tue Oct 28 16:20:29 2003 UTC (22 years ago)
File size:	6650 byte(s)
Log Message:	This commit was manufactured by cvs2svn to create branch 'no-template- branch'.
#	User	Rev	Content
1	mmeineke	377	module dipole_dipole
2
3			use force_globals
4			use definitions
5			use atype_module
6			use vector_class
7	chuckv	460	use simulation
8	mmeineke	377	#ifdef IS_MPI
9			use mpiSimulation
10			#endif
11			implicit none
12
13	mmeineke	626	PRIVATE
14	mmeineke	469	real(kind=dp), save :: rrf = 0.0
15			real(kind=dp), save :: rt = 0.0
16	mmeineke	626	real(kind=dp), save :: pre = 0.0
17	mmeineke	377	logical, save :: dipole_initialized = .false.
18
19	mmeineke	626
20			public::setCutoffsDipole
21			public::do_dipole_pair
22
23	mmeineke	377	contains
24
25	mmeineke	626	subroutine setCutoffsDipole(this_rrf, this_rt)
26	mmeineke	377	real(kind=dp), intent(in) :: this_rrf, this_rt
27			rrf = this_rrf
28			rt = this_rt
29	mmeineke	626	! pre converts from mu in units of debye to kcal/mol
30	chuckv	388	pre = 14.38362_dp
31	gezelter	394
32	mmeineke	377	dipole_initialized = .true.
33
34			return
35	mmeineke	626	end subroutine setCutoffsDipole
36	mmeineke	377
37	chuckv	460	subroutine do_dipole_pair(atom1, atom2, d, rij, r2, pot, u_l, f, t, &
38	mmeineke	377	do_pot, do_stress)
39
40			logical :: do_pot, do_stress
41
42	tim	727	integer atom1, atom2, me1, me2, id1, id2
43	mmeineke	377	real(kind=dp) :: rij, mu1, mu2
44	mmeineke	469	real(kind=dp) :: dfact1, dfact2, dip2, r2, r3, r5
45	mmeineke	377	real(kind=dp) :: dudx, dudy, dudz, dudu1x, dudu1y, dudu1z
46			real(kind=dp) :: dudu2x, dudu2y, dudu2z, rdotu1, rdotu2, u1dotu2
47			real(kind=dp) :: taper, dtdr, vterm
48
49			real( kind = dp ) :: pot
50			real( kind = dp ), dimension(3) :: d
51	chuckv	460	real( kind = dp ), dimension(3,getNlocal()) :: u_l
52			real( kind = dp ), dimension(3,getNlocal()) :: f
53			real( kind = dp ), dimension(3,getNlocal()) :: t
54	mmeineke	377
55			real (kind = dp), dimension(3) :: ul1
56			real (kind = dp), dimension(3) :: ul2
57
58			if (.not.dipole_initialized) then
59			write(default_error,*) 'Dipole-dipole not initialized!'
60			return
61			endif
62
63			#ifdef IS_MPI
64			me1 = atid_Row(atom1)
65			ul1(1) = u_l_Row(1,atom1)
66			ul1(2) = u_l_Row(2,atom1)
67			ul1(3) = u_l_Row(3,atom1)
68
69			me2 = atid_Col(atom2)
70			ul2(1) = u_l_Col(1,atom2)
71			ul2(2) = u_l_Col(2,atom2)
72			ul2(3) = u_l_Col(3,atom2)
73			#else
74			me1 = atid(atom1)
75			ul1(1) = u_l(1,atom1)
76			ul1(2) = u_l(2,atom1)
77			ul1(3) = u_l(3,atom1)
78
79			me2 = atid(atom2)
80			ul2(1) = u_l(1,atom2)
81			ul2(2) = u_l(2,atom2)
82			ul2(3) = u_l(3,atom2)
83			#endif
84
85	mmeineke	443
86	mmeineke	377	call getElementProperty(atypes, me1, "dipole_moment", mu1)
87			call getElementProperty(atypes, me2, "dipole_moment", mu2)
88	chuckv	388
89	mmeineke	377	if (rij.le.rrf) then
90
91			if (rij.lt.rt) then
92			taper = 1.0d0
93			dtdr = 0.0d0
94			else
95			taper = (rrf + 2.0d0rij - 3.0d0rt)(rrf-rij)2/ ((rrf-rt)*3)
96			dtdr = 6.0d0(rijrij - rijrt - rijrrf +rrfrt)/((rrf-rt)*3)
97			endif
98	mmeineke	469
99	mmeineke	377	r3 = r2*rij
100			r5 = r3*r2
101
102			rdotu1 = d(1)ul1(1) + d(2)ul1(2) + d(3)*ul1(3)
103			rdotu2 = d(1)ul2(1) + d(2)ul2(2) + d(3)*ul2(3)
104			u1dotu2 = ul1(1)ul2(1) + ul1(2)ul2(2) + ul1(3)*ul2(3)
105	mmeineke	469
106	mmeineke	377	dip2 = pre * mu1 * mu2
107			dfact1 = 3.0d0*dip2 / r2
108			dfact2 = 3.0d0*dip2 / r5
109	mmeineke	469
110	mmeineke	377	vterm = dip2((u1dotu2/r3) - 3.0d0(rdotu1*rdotu2/r5))
111	mmeineke	469
112	mmeineke	377	if (do_pot) then
113			#ifdef IS_MPI
114			pot_row(atom1) = pot_row(atom1) + 0.5d0vtermtaper
115			pot_col(atom2) = pot_col(atom2) + 0.5d0vtermtaper
116			#else
117			pot = pot + vterm*taper
118			#endif
119			endif
120
121			dudx = (-dfact1 * d(1) * ((u1dotu2/r3) - &
122			(5.0d0(rdotu1rdotu2)/r5)) - &
123			dfact2(ul1(1)rdotu2 + ul2(1)rdotu1))taper + &
124			vtermdtdrd(1)/rij
125
126			dudy = (-dfact1 * d(2) * ((u1dotu2/r3) - &
127			(5.0d0(rdotu1rdotu2)/r5)) - &
128			dfact2(ul1(2)rdotu2 + ul2(2)rdotu1))taper + &
129			vtermdtdrd(2)/rij
130
131			dudz = (-dfact1 * d(3) * ((u1dotu2/r3) - &
132			(5.0d0(rdotu1rdotu2)/r5)) - &
133			dfact2(ul1(3)rdotu2 + ul2(3)rdotu1))taper + &
134			vtermdtdrd(3)/rij
135	mmeineke	469
136	mmeineke	377	dudu1x = (dip2((ul2(1)/r3) - (3.0d0d(1)rdotu2/r5)))taper
137			dudu1y = (dip2((ul2(2)/r3) - (3.0d0d(2)rdotu2/r5)))taper
138			dudu1z = (dip2((ul2(3)/r3) - (3.0d0d(3)rdotu2/r5)))taper
139	mmeineke	469
140	mmeineke	377	dudu2x = (dip2((ul1(1)/r3) - (3.0d0d(1)rdotu1/r5)))taper
141			dudu2y = (dip2((ul1(2)/r3) - (3.0d0d(2)rdotu1/r5)))taper
142			dudu2z = (dip2((ul1(3)/r3) - (3.0d0d(3)rdotu1/r5)))taper
143
144	mmeineke	469
145	mmeineke	377	#ifdef IS_MPI
146	chuckv	482	f_Row(1,atom1) = f_Row(1,atom1) + dudx
147			f_Row(2,atom1) = f_Row(2,atom1) + dudy
148			f_Row(3,atom1) = f_Row(3,atom1) + dudz
149	mmeineke	377
150	chuckv	482	f_Col(1,atom2) = f_Col(1,atom2) - dudx
151			f_Col(2,atom2) = f_Col(2,atom2) - dudy
152			f_Col(3,atom2) = f_Col(3,atom2) - dudz
153	mmeineke	377
154			t_Row(1,atom1) = t_Row(1,atom1) - ul1(2)dudu1z + ul1(3)dudu1y
155			t_Row(2,atom1) = t_Row(2,atom1) - ul1(3)dudu1x + ul1(1)dudu1z
156			t_Row(3,atom1) = t_Row(3,atom1) - ul1(1)dudu1y + ul1(2)dudu1x
157
158			t_Col(1,atom2) = t_Col(1,atom2) - ul2(2)dudu2z + ul2(3)dudu2y
159			t_Col(2,atom2) = t_Col(2,atom2) - ul2(3)dudu2x + ul2(1)dudu2z
160			t_Col(3,atom2) = t_Col(3,atom2) - ul2(1)dudu2y + ul2(2)dudu2x
161			#else
162	chuckv	482	f(1,atom1) = f(1,atom1) + dudx
163			f(2,atom1) = f(2,atom1) + dudy
164			f(3,atom1) = f(3,atom1) + dudz
165	mmeineke	377
166	chuckv	482	f(1,atom2) = f(1,atom2) - dudx
167			f(2,atom2) = f(2,atom2) - dudy
168			f(3,atom2) = f(3,atom2) - dudz
169	mmeineke	377
170			t(1,atom1) = t(1,atom1) - ul1(2)dudu1z + ul1(3)dudu1y
171			t(2,atom1) = t(2,atom1) - ul1(3)dudu1x + ul1(1)dudu1z
172			t(3,atom1) = t(3,atom1) - ul1(1)dudu1y + ul1(2)dudu1x
173
174			t(1,atom2) = t(1,atom2) - ul2(2)dudu2z + ul2(3)dudu2y
175			t(2,atom2) = t(2,atom2) - ul2(3)dudu2x + ul2(1)dudu2z
176			t(3,atom2) = t(3,atom2) - ul2(1)dudu2y + ul2(2)dudu2x
177			#endif
178	tim	727
179	gezelter	730	if (do_stress) then
180
181	tim	727	#ifdef IS_MPI
182			id1 = tagRow(atom1)
183			id2 = tagColumn(atom2)
184			#else
185			id1 = atom1
186			id2 = atom2
187	gezelter	730	#endif
188	tim	727	if (molMembershipList(id1) .ne. molMembershipList(id2)) then
189	gezelter	483
190	gezelter	611	! because the d vector is the rj - ri vector, and
191			! because dudx, dudy, dudz are the (positive) force on
192			! atom i (negative on atom j) we need a negative sign here:
193
194			tau_Temp(1) = tau_Temp(1) - d(1) * dudx
195			tau_Temp(2) = tau_Temp(2) - d(1) * dudy
196			tau_Temp(3) = tau_Temp(3) - d(1) * dudz
197			tau_Temp(4) = tau_Temp(4) - d(2) * dudx
198			tau_Temp(5) = tau_Temp(5) - d(2) * dudy
199			tau_Temp(6) = tau_Temp(6) - d(2) * dudz
200			tau_Temp(7) = tau_Temp(7) - d(3) * dudx
201			tau_Temp(8) = tau_Temp(8) - d(3) * dudy
202			tau_Temp(9) = tau_Temp(9) - d(3) * dudz
203
204	gezelter	483	virial_Temp = virial_Temp + &
205			(tau_Temp(1) + tau_Temp(5) + tau_Temp(9))
206
207			endif
208	mmeineke	377	endif
209
210			endif
211
212			return
213			end subroutine do_dipole_pair
214
215			end module dipole_dipole