We perform a high-statistics simulation of the three-dimensional randomly dilute Ising model on cubic lattices L(3) with Lless than or equal to256. We choose a particular value of the density, x=0.8, for which the leading scaling corrections are suppressed. We determine the critical exponents, obtaining nu=0.683(3), eta=0.035(2), beta=0.3535(17), and alpha=-0.049(9), in agreement with previous numerical simulations. We also estimate numerically the fixed-point values of the four-point zero-momentum couplings that are used in field-theoretical fixed-dimension studies. Although these results somewhat differ from those obtained using perturbative field theory, the field-theoretical estimates of the critical exponents do not change significantly if the Monte Carlo result for the fixed point is used. Finally, we determine the six-point zero-momentum couplings, relevant for the small-magnetization expansion of the equation of state, and the invariant amplitude ratio R(xi)(+) that expresses the universality of the free-energy density per correlation volume. We find R(xi)(+)=0.2885(15).
Three-dimensional randomly dilute Ising model: Monte Carlo results / Calabrese, Pasquale; Martin Mayor, V; Pelissetto, A; Vicari, E.. - In: PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS. - ISSN 1539-3755. - 68:3(2003). [10.1103/PhysRevE.68.036136]
Three-dimensional randomly dilute Ising model: Monte Carlo results
Calabrese, Pasquale;
2003-01-01
Abstract
We perform a high-statistics simulation of the three-dimensional randomly dilute Ising model on cubic lattices L(3) with Lless than or equal to256. We choose a particular value of the density, x=0.8, for which the leading scaling corrections are suppressed. We determine the critical exponents, obtaining nu=0.683(3), eta=0.035(2), beta=0.3535(17), and alpha=-0.049(9), in agreement with previous numerical simulations. We also estimate numerically the fixed-point values of the four-point zero-momentum couplings that are used in field-theoretical fixed-dimension studies. Although these results somewhat differ from those obtained using perturbative field theory, the field-theoretical estimates of the critical exponents do not change significantly if the Monte Carlo result for the fixed point is used. Finally, we determine the six-point zero-momentum couplings, relevant for the small-magnetization expansion of the equation of state, and the invariant amplitude ratio R(xi)(+) that expresses the universality of the free-energy density per correlation volume. We find R(xi)(+)=0.2885(15).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.