Latest Articles for Statistical Mechanics

Study of amplitude mode in disordered systems near superfluid-insulator transitions.

Dive into the unique features of nonequilibrium stationary states and their asymmetries.

Research reveals insights into exciton-polariton condensates and their unique properties.

An in-depth look at Anosov flows and their key properties.

An overview of wreath Macdonald polynomials and their applications in various fields.

Examining the behavior and stability of crystal shapes in various conditions.

Examining how dual-unitary circuits maintain stability under small changes and chaotic behavior.

A look into particle movement and stability in the facilitated simple exclusion process model.

Research reveals unusual patterns in entropy through fragmentation models.

An exploration of the Spin-Statistics Theorem and its implications in quantum physics.

An overview of orbifold conformal field theories and their significance in physics.

Exploring the long-term behavior of particles in an exclusion process.

This research sheds light on how charged particles fluctuate under different conditions.

A study on frustrated ladders reveals complex spin interactions and their behaviors.

A study on nonequilibrium phase transitions in a 2D ferromagnetic system using simulations.

Exploring the intricate world of quantum spin glasses and their implications.

Examining how quantum systems reach thermal equilibrium and the factors influencing this process.

This study reveals new insights into the stationary measures of open ASEP and KPZ equations.

This study investigates pseudoentanglement and its dynamics using automaton circuits.

Examining rapid changes in Ising models and their implications for phase transitions.

A look into the unique behavior of one-dimensional quantum systems and their interactions.

Analyzing the behavior of Ginzburg-Landau fields and their maximum values.

Explore the role of harmonic measures in hyperbolic space behaviors.

Investigating chaotic quantum systems reveals key differences between sparse and dense behaviors.

Study reveals links between classical magnets and exotic spin liquid states.

Researching fluid behavior in high-energy physics and heavy-ion collisions.

Research on four urns reveals unique non-equilibrium behaviors.

Our research reveals that high-temperature Gibbs states show no entanglement.

A look at kinetic theory and how particles behave in different states of matter.

A study of fluctuating particle numbers in Riesz gases under harmonic confinement.

An overview of Schrodinger symmetry and its significance in various fields of physics.

This study examines how active environments affect particle transport and system behavior.

Exploring the significance of spin and loop models in understanding physical systems.

This study examines how weak measurements influence phase transitions in quantum systems.

This study explores smooth solutions to the isotropic Landau equation under broader initial conditions.

Adaptive stepsize methods enhance Langevin dynamics simulations of particle behavior under random forces.

Exploring how emergence shapes our understanding of the universe.

Introducing expanderized random walks for efficient sampling in complex systems.

A look into energy flow in small quantum systems and their interactions.

Research focuses on efficient methods for sampling Gibbs states in quantum computing.