void SIAM::SolveSiam(complex<double>* V) { mu0 = real(V[0]); MPT_B = real(V[1]); //--------------------// get_G0(); n = get_n(G0); MPT_B0 = get_MPT_B0(); get_As(); get_Ps(); get_SOCSigma(); get_Sigma(); get_G(); //--------------------// V[0] = mu0 + (get_n(G) - n); //we need to satisfy (get_n(G) == n) and V[1] = get_MPT_B(); // (MPT_B == get_MPT_B()) }
bool SIAM::Run_CHM(double n, complex<double>* Delta, //input complex<double>* G_out, complex<double>* Sigma_out, double &mu_out) //output { if (!Initialized) exit(1); Clipped = false; for (int i=0; i<N; i++) if (ClipOff(Delta[i])) Clipped = true; if (Clipped) printf(" !!! Clipping Delta !!!\n"); this->n = n; this->Delta = Delta; //PrintFunc("DeltaSiam",N,Delta,omega); this->epsilon = 0; if (n==0.5) HalfFilling = true; else HalfFilling = false; printf(" ------- SIAM for CHM: n=%.3f, U=%.3f, T=%.3f, epsilon=%.3f -------\n", n, U, T, epsilon); if (HalfFilling) { mu = 0.5*U; mu0 = 0.0; MPT_B = 0.0; MPT_B0 = 0.0; SymmetricCase = true; } //------initial guess---------// complex<double>* V = new complex<double>[1]; V[0] = mu0; //initial guess is always the last mu0. in first DMFT iteration it is 0 //---------------------------// printf(" MPT: B = %fe, B0 = %fe\n", MPT_B, MPT_B0); //----------------- CALCULATION ----------------------// if (HalfFilling)//and (SymmetricCase)) get_G0(); else UseBroyden<SIAM>(1, MAX_ITS, Accr, &SIAM::get_G0, this, V); printf(" mu0 = %f\n", mu0); printf("Integral G0: %.6f\n",imag(TrapezIntegral(N,G0,omega))); get_As(); get_Ps(); get_SOCSigma(); V[0] = mu; if (HalfFilling)//and (SymmetricCase)) { if (IsBethe) { get_Sigma(); get_G(); //get_G() !!!! samo proba // printf(" Integral G = %.6f\n",imag(TrapezIntegral(N,G,omega))); } else get_G_CHM(); } else { if (IsBethe) UseBroyden<SIAM>(1, MAX_ITS, Accr, &SIAM::get_G, this, V); else UseBroyden<SIAM>(1, MAX_ITS, Accr, &SIAM::get_G_CHM, this, V); } MPT_B = get_MPT_B(); MPT_B0 = get_MPT_B0(); printf(" mu = %f\n", mu); delete [] V; //-----------------------------------------------------// //output spectral weight if optioned if (CheckSpectralWeight) { printf(" Spectral weight G: %fe\n", -imag(TrapezIntegral(N,G,omega))/pi); printf(" Spectral weight G0: %fe\n", -imag(TrapezIntegral(N,G0,omega))/pi); } //-------- OUTPUT ---------// for (int i=0; i<N; i++) { G_out[i] = G[i]; Sigma_out[i] = Sigma[i]; } mu_out = mu; //-------------------------// // printf(" PROVERA: n = %f, U = %f \n",n, U); return Clipped; }
bool SIAM::Run_CHM(Result* r) //output { this->r = r; N = r->grid->get_N(); grid = r->grid; get_fermi(); Clipped = false; epsilon = 0; if (r->n==0.5) HalfFilling = true; else HalfFilling = false; printf(" ------- SIAM for CHM: n=%.3f, U=%.3f, T=%.3f, epsilon=%.3f -------\n", r->n, U, T, epsilon); if (HalfFilling) { r->mu = 0.5*U; mu0 = 0.0; MPT_B = 0.0; MPT_B0 = 0.0; SymmetricCase = true; } //------initial guess---------// complex<double>* V = new complex<double>[1]; V[0] = mu0; //initial guess is always the last mu0. in first DMFT iteration it is 0 //---------------------------// printf(" MPT: B = %fe, B0 = %fe\n", MPT_B, MPT_B0); //----------------- CALCULATION ----------------------// if (HalfFilling)//and (SymmetricCase)) get_G0(); else UseBroyden<SIAM>(1, MAX_ITS, Accr, &SIAM::get_G0, this, V); printf(" mu0 = %f\n", mu0); get_As(); get_Ps(); get_SOCSigma(); V[0] = r->mu; if (HalfFilling)//and (SymmetricCase)) { if (isBethe) { get_Sigma(); get_G(); } else get_G_CHM(); } else { if (isBethe) UseBroyden<SIAM>(1, MAX_ITS, Accr, &SIAM::get_G, this, V); else UseBroyden<SIAM>(1, MAX_ITS, Accr, &SIAM::get_G_CHM, this, V); } MPT_B = get_MPT_B(); MPT_B0 = get_MPT_B0(); printf(" mu = %f\n", r->mu); delete [] V; //-----------------------------------------------------// //output spectral weight if optioned if (CheckSpectralWeight) { printf(" n0: %.6f\n", get_n(r->G0)); printf(" n: %.6f\n", get_n(r->G)); } // fill in DOS #pragma omp parallel for for (int i=0; i<N; i++) r->DOS[i] = - imag(r->G[i]) / pi; r->mu0 = mu0; return false; }