sim(o815 *_O815);
siteconf* conf;
unsigned int LSIZE2;
+ double M;
+ double m;
+ neigh *nb;
private:
void _makeSweep();
void _newParas();
-
gsl_rng* rangsl;
-
- neigh *nb;
-
void updatePhi (const int& x);
};
void sim::updatePhi (const int& x)
{
- const double r = gsl_rng_uniform(rangsl);
const double theta = gsl_rng_uniform(rangsl) * 2*M_PI;
+ complex<double> V=0;
+
+ for (int nu=0; nu<4; nu++)
+ V += conf[ (*nb)[x*4+nu] ].phi;
+
+ const double r = exp( - M * norm(conf[x].phi)
+ - 1./M * norm(V)
+ + 2 * real( conf[x].phi * conj(V) ) );
+
+ conf[x].phi = sqrt(std::log( 1./(1-r) )) / sqrt(M)
+ * complex<double>( cos(theta), sin(theta) )
+ + V / M;
}
void sim::_makeSweep() {
+ for (int ichecker=0; ichecker<2; ichecker++)
+ for (int it=0; it<O815->comargs.lsize[0]; it++)
+ for (int iy=(it+ichecker)%2; iy<O815->comargs.lsize[1]; iy+=2)
+ updatePhi( it*O815->comargs.lsize[1] + iy );
}
void sim::_newParas() {
- /* reset variables */
+ m = (*O815->paraQ)["mass"];
+ M = pow( (*O815->paraQ)["mass"], 2 ) + 4;
+ *log << "SIM: Resetting fields." << endl << flush;
+
+ for (int ix=0; ix<LSIZE2; ix++)
+ conf[ix].phi = 1;
}
#endif