Computer Simulation Studies in Condensed-matter Physics XIV: Proceedings of the Fourteenth Workshop, Athens, GA, USA, February 19-24, 2001, Volume 14
David P. Landau, Steven P. Lewis, Heinz-Bernd Schüttler
Springer, 2002 - Computers - 276 pages
This is a "status report" based on the presentations and discussions which took place during the 14th Annual Workshop on Computer Simulation Studies in Condensed Matter Physics at the Center for Simulational Physics at the University of Georgia in February 2001. It provides a broad overview of the most recent advances in the field, spanning a wide range of topical areas in simulational condensed matter physics. These include recent developments in simulations of classical statistical mechanics models, electronic structure calculations, quantum Monte Carlo simulations, and simulations of polymers. New physical results and novel simulational and data analysis methods are presented.
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Recent Development in Nonequilibrium Relaxation Method
FirstPrinciples Parameter Estimation
Simulation of the Early Stages of Growth
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algorithm antiferromagnetic atoms average Binder blocking cone bonds boundaries bulk Burgers vector calculations chiral symmetry cluster algorithm coexistence Computer Simulation Studies Condensed-Matter Physics configuration constant constraint corresponding critical exponent critical point crossover D.P. Landau denotes density dependence dimensional dislocation distribution effects eigenvalue equation equilibrium estimate exponent exponential fermion film finite fixed point flip free energy function genome Hamiltonian histogram Hubbard model interactions interatomic interface potential Ising model lattice layer Lett magnetic matrix mean field method molecular dynamics Monte Carlo method Monte Carlo simulations mutations Nucl nucleation operator order parameter particles phase diagram phase transition phonon Phys Physics polymer Potts model prefactor probability quantum quantum Monte Carlo quasicrystal R.H. Swendsen random renormalization representation RG transformation shown in Fig solid species spin stress structure surface Swendsen-Wang theory thermal tion tricritical tricritical point two-dimensional update vector velocity wall Wang wetting transition zero