+ /* zeta_ji/dzeta_ji contribution only for d_jk < S_jk */
+ if(d_jk2<S2) {
+
+ /* now we need d_ik */
+ d_jk=sqrt(d_jk2);
+
+ /* constants_j from exchange data */
+ n=*(exchange->n_j);
+ c=*(exchange->c_j);
+ d=*(exchange->d_j);
+ h=*(exchange->h_j);
+ c2=exchange->cj2;
+ d2=exchange->dj2;
+ c2d2=exchange->cj2dj2;
+
+ /* cosine of theta_jik by scalaproduct */
+ rr=-v3_scalar_product(&dist_ij,&dist_jk); /* -1, as ij -> ji */
+ dd=d_ij*d_jk;
+ cos_theta=rr/dd;
+
+ /* d_costheta */
+ d_costheta1=1.0/dd;
+ d_costheta2=cos_theta/d_ij2;
+
+ /* some usefull values */
+ h_cos=(h-cos_theta);
+ d2_h_cos2=d2+(h_cos*h_cos);
+ frac=c2/(d2_h_cos2);
+
+ /* g(cos_theta) */
+ g=1.0+c2d2-frac;
+
+ /* d_costheta_jik and dg(cos_theta) - needed in any case! */
+ v3_scale(&temp1,&dist_jk,d_costheta1);
+ v3_scale(&temp2,&dist_ij,-d_costheta2); /* ji -> ij => -1 */
+ //v3_add(&temp1,&temp1,&temp2);
+ v3_sub(&temp1,&temp1,&temp2); /* there is a minus! */
+ v3_scale(&temp1,&temp1,-2.0*frac*h_cos/d2_h_cos2); /* dg */
+
+ /* store dg in temp2 and use it for dVjk later */
+ v3_copy(&temp2,&temp1);
+
+ /* f_c_jk + {d,}zeta contribution (df_c_jk = 0) */
+ dzeta=&(exchange->dzeta_ji);
+ if(d_jk<R) {
+ /* f_c_jk */
+ f_c_jk=1.0;
+
+ /* zeta_ji */
+ exchange->zeta_ji+=g;
+
+ /* dzeta_ji */
+ v3_add(dzeta,dzeta,&temp1);
+ }
+ else {
+ /* f_c_jk */
+ s_r=S-R;
+ arg=M_PI*(d_jk-R)/s_r;
+ f_c_jk=0.5+0.5*cos(arg);
+
+ /* zeta_ji */
+ exchange->zeta_ji+=f_c_jk*g;
+
+ /* dzeta_ji */
+ v3_scale(&temp1,&temp1,f_c_jk);
+ v3_add(dzeta,dzeta,&temp1);
+ }
+
+ /* dV_jk stuff | add force contribution on atom i immediately */
+ if(exchange->d_ij_between_rs) {
+ zeta=f_c*g;
+ v3_scale(&temp1,&temp2,f_c);
+ v3_scale(&temp2,&dist_ij,df_c*g);
+ v3_add(&temp2,&temp2,&temp1); /* -> dzeta_jk in temp2 */
+ }
+ else {
+ zeta=g;
+ // dzeta_jk is simply dg, which is stored in temp2
+ }
+ /* betajnj * zeta_jk ^ nj-1 */
+ tmp=exchange->betajnj*pow(zeta,(n-1.0));
+ tmp=-chi/2.0*pow((1+tmp*zeta),(-1.0/(2.0*n)-1))*tmp;
+ v3_scale(&temp2,&temp2,tmp*B*exp(-mu*d_jk)*f_c_jk*0.5);
+ v3_add(&(ai->f),&(ai->f),&temp2); /* -1 skipped in f_a calc ^ */
+ /* scaled with 0.5 ^ */
+
+ /* virial */
+ ai->virial.xx-=temp2.x*dist_jk.x;
+ ai->virial.yy-=temp2.y*dist_jk.y;
+ ai->virial.zz-=temp2.z*dist_jk.z;
+ ai->virial.xy-=temp2.x*dist_jk.y;
+ ai->virial.xz-=temp2.x*dist_jk.z;
+ ai->virial.yz-=temp2.y*dist_jk.z;
+
+#ifdef DEBUG
+if(ai==&(moldyn->atom[0])) {
+ printf("dVjk (3bp) contrib:\n");
+ printf("%f | %f\n",temp2.x,ai->f.x);
+ printf("%f | %f\n",temp2.y,ai->f.y);
+ printf("%f | %f\n",temp2.z,ai->f.z);
+}
+#endif
+#ifdef VDEBUG
+if(ai==&(moldyn->atom[0])) {
+ printf("dVjk (3bp) contrib:\n");
+ printf("%f | %f\n",temp2.x*dist_jk.x,ai->virial.xx);
+ printf("%f | %f\n",temp2.y*dist_jk.y,ai->virial.yy);
+ printf("%f | %f\n",temp2.z*dist_jk.z,ai->virial.zz);
+}
+#endif
+