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1 /*
2  * lennard_jones.c - lennard jones potential
3  *
4  * author: Frank Zirkelbach <frank.zirkelbach@physik.uni-augsburg.de>
5  *
6  */
7
8 #define _GNU_SOURCE
9 #include <stdio.h>
10 #include <stdlib.h>
11 #include <string.h>
12 #include <sys/types.h>
13 #include <sys/stat.h>
14 #include <fcntl.h>
15 #include <unistd.h>
16 #include <math.h>
17
18 #include "../moldyn.h"
19 #include "../math/math.h"
20 #include "lennard_jones.h"
21
22 int lennard_jones_set_params(t_moldyn *moldyn,int element) {
23
24         t_lj_params *p;
25         t_atom a,b;
26
27         // set cutoff before parameters (actually only necessary for some pots)
28         if(moldyn->cutoff==0.0) {
29                 printf("[lennard jones] WARNING: no cutoff!\n");
30                 return -1;
31         }
32
33         /* atoms for correction term */
34         a.r.x=0.0; a.r.y=0.0; a.r.z=0.0;
35         b.r.x=0.0; b.r.y=0.0; b.r.z=moldyn->cutoff;
36
37         /* alloc mem for potential parameters */
38         moldyn->pot_params=malloc(sizeof(t_lj_params));
39         if(moldyn->pot_params==NULL) {
40                 perror("[lennard jones] pot params alloc");
41                 return -1;
42         }
43
44         /* these are now lennard jones parameters */
45         p=moldyn->pot_params;
46
47         switch(element) {
48                 case SI:
49                         /* type: silicon */
50                         p->sigma6=LJ_SIGMA_SI*LJ_SIGMA_SI*LJ_SIGMA_SI;
51                         p->sigma6+=p->sigma6;
52                         p->sigma12=p->sigma6*p->sigma6;
53                         p->epsilon4=4.0*LJ_EPSILON_SI;
54                         p->uc=0.0; // calc it now!
55                         lennard_jones(moldyn,&a,&b,0);
56                         p->uc=moldyn->energy;
57                         moldyn->energy=0.0;
58                         break;
59                 case C:
60                         /* type: carbon */
61                         p->sigma6=LJ_SIGMA_C*LJ_SIGMA_C*LJ_SIGMA_C;
62                         p->sigma6+=p->sigma6;
63                         p->sigma12=p->sigma6*p->sigma6;
64                         p->epsilon4=4.0*LJ_EPSILON_C;
65                         p->uc=0.0; // calc it now!
66                         lennard_jones(moldyn,&a,&b,0);
67                         p->uc=moldyn->energy;
68                         moldyn->energy=0.0;
69                         break;
70                 default:
71                         printf("[lennard jones] WARNING: element\n");
72                         return -1;
73         }
74
75         return 0;
76 }
77
78 int lennard_jones(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc) {
79
80         t_lj_params *params;
81         t_3dvec force,distance;
82         double d,h1,h2;
83         double eps,sig6,sig12;
84         double energy;
85
86         params=moldyn->pot_params;
87         eps=params->epsilon4;
88         sig6=params->sigma6;
89         sig12=params->sigma12;
90
91         if(ai<aj) return 0;
92
93         v3_sub(&distance,&(aj->r),&(ai->r));
94         if(bc) check_per_bound(moldyn,&distance);
95         d=v3_absolute_square(&distance);        /* r^2 */
96         if(d<=moldyn->cutoff_square) {
97                 d=1.0/d;                        /* 1/r^2 */
98                 h2=d*d;                         /* 1/r^4 */
99                 h2*=d;                          /* 1/r^6 */
100                 h1=h2*h2;                       /* 1/r^12 */
101                 energy=(eps*(sig12*h1-sig6*h2)-params->uc);
102                 moldyn->energy+=energy;         /* total energy */
103                 ai->e+=0.5*energy;              /* site energy */
104                 aj->e+=0.5*energy;
105                 h2*=d;                          /* 1/r^8 */
106                 h1*=d;                          /* 1/r^14 */
107                 h2*=6*sig6;
108                 h1*=12*sig12;
109                 d=+h1-h2;
110                 d*=eps;
111                 v3_scale(&force,&distance,d);
112                 v3_add(&(aj->f),&(aj->f),&force);
113                 v3_scale(&force,&force,-1.0); /* f = - grad E */
114                 v3_add(&(ai->f),&(ai->f),&force);
115                 virial_calc(ai,&force,&distance);
116                 virial_calc(aj,&force,&distance); /* f and d signe switched */
117         }
118
119         return 0;
120 }
121
122 int lennard_jones_check_2b_bond(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc) {
123
124          t_3dvec dist;
125          double d;
126
127         v3_sub(&dist,&(aj->r),&(ai->r));
128         if(bc) check_per_bound(moldyn,&dist);
129         d=v3_absolute_square(&dist);
130
131         if(d>moldyn->cutoff_square)
132                 return FALSE;
133
134         return TRUE;
135 }