- if (!loadedobs) {
- for (int kpt = 0; kpt <= O815->comargs.lsize[0]; kpt++)
- for (int kpx = 0; kpx <= O815->comargs.lsize[1]; kpx++) {
- double ppt = 2.*M_PI/O815->comargs.lsize[0] * kpt;
- double ppx = 2.*M_PI/O815->comargs.lsize[1] * kpx;
-
- OM.phip2[ kpt * ( O815->comargs.lsize[1] + 1 ) + kpx ] = 0;
-
- for (int ixt = 0; ixt < O815->comargs.lsize[0]; ixt++)
- for (int ixx = 0; ixx < O815->comargs.lsize[1]; ixx++)
- for (int ixpt = 0; ixpt < O815->comargs.lsize[0]; ixpt++)
- for (int ixpx = 0; ixpx < O815->comargs.lsize[1]; ixpx++)
- OM.phip2[ kpt * ( O815->comargs.lsize[1] + 1 ) + kpx ] += real( conj( Sim->conf[ ixt*O815->comargs.lsize[1] + ixx ].phi )
- * Sim->conf[ ixpt*O815->comargs.lsize[1] + ixpx ].phi
- * exp ( _i_*(double)ppx*(double)(ixx-ixpx) + _i_*(double)ppt*(double)(ixt-ixpt) ) );
-
- OM.phip2[ kpt * ( O815->comargs.lsize[1] + 1 ) + kpx ] /= Sim->LSIZE2;
- }
- }
-
- for (int kpt = 0; kpt <= O815->comargs.lsize[0]; kpt++)
- for (int kpx = 0; kpx <= O815->comargs.lsize[1]; kpx++) {
- double ppt = 2.*M_PI/O815->comargs.lsize[0] * kpt;
- double ppx = 2.*M_PI/O815->comargs.lsize[1] * kpx;
-
- *out << O815->paraQ->getParaVals();
- *out << "\t" << ( Sim->nequi + (nthmeas+1)*Sim->nskip );
- *out << "\t" << kpt << "\t" << kpx;
- *out << "\t" << OM.phip2[ kpt * ( O815->comargs.lsize[1] + 1 ) + kpx ] - 1./(ppt*ppt + ppx*ppx + Sim->m*Sim->m) << endl;
+ for (int kpimode=0; kpimode<4; kpimode++) {
+ const double ppt = 2.*M_PI/O815->comargs.lsize[0] * ( 0 + int( kpimode/4. * O815->comargs.lsize[0] ) ) ;
+ const double ppx = 2.*M_PI/O815->comargs.lsize[1] * ( 0 + int( kpimode/4. * O815->comargs.lsize[1] ) );
+
+ if (!loadedobs) {
+ complex<double> phitildepp = 0;
+
+ for (int ixpt = 0; ixpt < O815->comargs.lsize[0]; ixpt++)
+ for (int ixpx = 0; ixpx < O815->comargs.lsize[1]; ixpx++)
+ phitildepp += Sim->conf[ ixpt*O815->comargs.lsize[1] + ixpx ].phi
+ * exp ( - _i_*(double)ppx*(double)ixpx - _i_*(double)ppt*(double)ixpt );
+
+ OM->phip2[ kpimode ] = norm( phitildepp) / Sim->LSIZE2;