Statistical Physics

A rigorous partial justification of Greene\'s criterion

Statistical Physics / Mathematical Sciences / Physical sciences / Lyapunov exponents / Lyapunov exponent

Interfacial Adsorption in Two-Dimensional Potts Models

Monte Carlo Simulation / Statistical Physics / Mathematical Sciences / Physical sciences / First-Order Logic / First Order Logic / Low Temperature / Potts Model / Critical Temperature / First Order Logic / Low Temperature / Potts Model / Critical Temperature

Hierarchical random energy model of a spin glass

Lattice Theory / Nonlinear dynamics / Statistical Physics / Physical sciences / High Temperature / Free Energy / Spin Glass / Numerical Solution / Computational Method / Free Energy / Spin Glass / Numerical Solution / Computational Method

Hierarchical Random Energy Model of a Spin Glass

Lattice Theory / Nonlinear dynamics / Statistical Physics / Physical sciences / High Temperature / Free Energy / Spin Glass / Numerical Solution / Computational Method / Free Energy / Spin Glass / Numerical Solution / Computational Method

Phase transition in a spatial Lotka-Volterra model

Engineering / Monte Carlo Simulation / Molecular Evolution / Nonlinear dynamics / Pattern Formation / Statistical Physics / Critical phenomena / Mutation / Random Walk / Mathematical Sciences / Bacterial Toxins / Lotka Volterra / Physical sciences / Phase transition / Self Organization / Symmetry Breaking / Degeneration / Levy Flight / Potts Model / Population dynamic / Mutation Rate / Monte Carlo Method / Computational Method / Statistical Physics / Critical phenomena / Mutation / Random Walk / Mathematical Sciences / Bacterial Toxins / Lotka Volterra / Physical sciences / Phase transition / Self Organization / Symmetry Breaking / Degeneration / Levy Flight / Potts Model / Population dynamic / Mutation Rate / Monte Carlo Method / Computational Method

Phase transition in a spatial Lotka-Volterra model

Engineering / Monte Carlo Simulation / Molecular Evolution / Nonlinear dynamics / Pattern Formation / Statistical Physics / Critical phenomena / Mutation / Random Walk / Mathematical Sciences / Bacterial Toxins / Lotka Volterra / Physical sciences / Phase transition / Self Organization / Symmetry Breaking / Degeneration / Levy Flight / Potts Model / Population dynamic / Mutation Rate / Monte Carlo Method / Computational Method / Statistical Physics / Critical phenomena / Mutation / Random Walk / Mathematical Sciences / Bacterial Toxins / Lotka Volterra / Physical sciences / Phase transition / Self Organization / Symmetry Breaking / Degeneration / Levy Flight / Potts Model / Population dynamic / Mutation Rate / Monte Carlo Method / Computational Method

Lossy Data Compression with Random Gates

Probability Theory / Stochastic Process / Information Theory / Data Compression / Communication Theory / Statistical Physics / Physical sciences / Quantum and classical statistical mechanics / Spin Glass / Constraint Satisfaction / Linear Time / Constraint Satisfaction Problem / Statistical Physics / Physical sciences / Quantum and classical statistical mechanics / Spin Glass / Constraint Satisfaction / Linear Time / Constraint Satisfaction Problem

Hierarchical Random Energy Model of a Spin Glass

Lattice Theory / Nonlinear dynamics / Statistical Physics / Physical sciences / High Temperature / Free Energy / Spin Glass / Numerical Solution / Computational Method / Free Energy / Spin Glass / Numerical Solution / Computational Method

Accidental politicians: How randomly selected legislators can improve parliament efficiency

Mathematical Physics / Quantum Physics / Complex Systems Science / Complexity Theory / Complex Systems / Complexity / Statistical Physics / Statistical Physics Of Complex Systems / Social Welfare / Complex System / Legislation / Agent Based Model / Complexity / Statistical Physics / Statistical Physics Of Complex Systems / Social Welfare / Complex System / Legislation / Agent Based Model

A rigorous partial justification of Greene\'s criterion

Statistical Physics / Mathematical Sciences / Physical sciences / Lyapunov exponent

Stochastically Stable Quenched Measures

Statistical Physics / Mathematical Sciences / Physical sciences / Covariance Matrix / Random Matrices

Replica Cluster Variational Method

Statistical Physics / Mathematical Sciences / Spin Glasses / Physical sciences / Quenched Disorder / Phase transition / Free Energy / Message Passing / Spin Glass / Second Order / Fourier transform / Integral Equation / Two Dimensions / Population dynamic / Replica Method / Phase transition / Free Energy / Message Passing / Spin Glass / Second Order / Fourier transform / Integral Equation / Two Dimensions / Population dynamic / Replica Method

Ecological succession as an energy dispersal process

Engineering / Thermodynamics / Ecology / High Energy Density Physics / Statistical Physics / Bio-Inspired Systems / Signal Transduction / Natural Selection / Biological Sciences / Food web / Species Richness / Ecological Succession / Free Energy / Biomass production / Biosystems / Open System / Food Chain / Maximum entropy / Bio-Inspired Systems / Signal Transduction / Natural Selection / Biological Sciences / Food web / Species Richness / Ecological Succession / Free Energy / Biomass production / Biosystems / Open System / Food Chain / Maximum entropy

Two-Dimensional One-Component Plasma on Flamm’s Paraboloid

Statistical Physics / Mathematical Sciences / Physical sciences

A random field model for anomalous diffusion in heterogeneous porous media

Two Phase Flow / Statistical Physics / Mathematical Sciences / Porous Media / Physical sciences / Behavior change / Length scale / Anomalous Diffusion / Fractal Dimension / Heterogeneous porous media / Random Field / Behavior change / Length scale / Anomalous Diffusion / Fractal Dimension / Heterogeneous porous media / Random Field

Discrete Velocity Fields with Explicitly Computable Lagrangian Law

Statistical Physics / Mathematical Sciences / Physical sciences / Brownian Motion / hidden Markov model / Velocity Field / Discrete Time Systems / Velocity Field / Discrete Time Systems

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