Remove some commented out code.

This commit is contained in:
Andrius Štikonas 2015-04-25 16:56:09 +01:00
parent a56e5420ca
commit 7a948bd6d2
1 changed files with 1 additions and 8 deletions

View File

@ -73,19 +73,12 @@ int main()
// Now we calculate entanglement entropies using Fitzpatrick, Kaplan, Walters formula. // Now we calculate entanglement entropies using Fitzpatrick, Kaplan, Walters formula.
double S_A = c/6 * log(Fitzpatrick(zA, zAbar, y < tMinus + tOmega && tMinus + tOmega < y + L ? 2*M_PI : 0)); double S_A = c/6 * log(Fitzpatrick(zA, zAbar, y < tMinus + tOmega && tMinus + tOmega < y + L ? 2*M_PI : 0));
// std::cerr << "S_A = " << S_A << std::endl;
// double S_A_analytic = c/6 * log(beta/M_PI/epsilon/sinh(M_PI*L/beta)*sinh(M_PI/beta*(y+L-tMinus-tOmega))*sinh(M_PI/beta*(tMinus+tOmega-y)) * sin(M_PI*alpha)/alpha);
// double S_A_analytic = 0;
// std::cerr << "S_A (analytic) = " << S_A_analytic << std::endl;
double S_B = c/6 * log(Fitzpatrick(zB, zBbar, 0)); double S_B = c/6 * log(Fitzpatrick(zB, zBbar, 0));
double S_union = c/6 * log(Fitzpatrick(z2, z2bar, y < tMinus + tOmega ? 2*M_PI : 0) * Fitzpatrick(z5, z5bar, y +L < tMinus + tOmega ? -2*M_PI : 0)); double S_union = c/6 * log(Fitzpatrick(z2, z2bar, y < tMinus + tOmega ? 2*M_PI : 0) * Fitzpatrick(z5, z5bar, y +L < tMinus + tOmega ? -2*M_PI : 0));
// std::cerr << "S_A+B = " << S_union << std::endl;
double S_union_analytic = c/3 * log(beta/M_PI/epsilon * sin(M_PI*alpha)/alpha) + c/6* log(sinh(M_PI/beta*(tMinus + tOmega - y)) * cosh(M_PI/beta*(tPlus + tOmega - y)) * sinh(M_PI/beta*(tMinus + tOmega - y - L)) * cosh(M_PI/beta*(tPlus + tOmega - y - L))); double S_union_analytic = c/3 * log(beta/M_PI/epsilon * sin(M_PI*alpha)/alpha) + c/6* log(sinh(M_PI/beta*(tMinus + tOmega - y)) * cosh(M_PI/beta*(tPlus + tOmega - y)) * sinh(M_PI/beta*(tMinus + tOmega - y - L)) * cosh(M_PI/beta*(tPlus + tOmega - y - L)));
// std::cerr << "S_A+B (analytic) = " << S_union_analytic << std::endl;
double S_thermal = 2*c/3 * log(sinh(M_PI*L/beta)/cosh(M_PI/beta*(tMinus-tPlus))); double S_thermal = 2*c/3 * log(sinh(M_PI*L/beta)/cosh(M_PI/beta*(tMinus-tPlus)));
double I = S_A + S_B - S_union + S_thermal; double I = S_A + S_B - S_union + S_thermal;
// double I_analytic = S_A_analytic - S_union_analytic + S_thermal; std::cout << tOmega << "\t" << I << std::endl;
std::cout << tOmega << "\t" << I /*<< "\t" << I_analytic*/ << std::endl;
} }
return 0; return 0;
} }