Monte Carlo Methods in Statistical PhysicsKurt Binder |
Contents
Theory and Technical Aspects of Monte Carlo Simulations | 1 |
References | 43 |
Phase Diagrams of Mixtures and Magnetic Systems | 121 |
Copyright | |
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adatoms agreement AIP Conf algorithm alloys antiferromagnetic approximation atoms average Binder Chem cluster configurations constant correlation functions critical exponents crystal growth D.P. Landau density diffusion distribution functions dynamic effects electron ensemble equation estimates expansion experimental ferromagnetic finite fluctuations fluid free energy ground-state hamiltonian hard spheres Heisenberg helium infinite system interaction interface internal energy Ising model J.P. Hansen kinetic lattice layer Lennard-Jones Lett Levesque liquid low temperatures M.E. Fisher M.H. Kalos magnetization MC simulations metastable molecules Monte Carlo method Monte Carlo simulations Müller-Krumbhaar nearest-neighbor neighbor neutron matter nucleation obtained order parameter particles percolation periodic boundary conditions phase transition phenomena Phys potential predicted probability problem Proc properties pseudopotential quantum random walk relaxation sampling scaling simple solid spin glass spinodal decomposition statistical step structure factor surface theory thermal equilibrium thermodynamic trial function two-dimensional Valleau values variational VERLET virial zero μμ