Latest Articles for Statistical Mechanics

Exploring how quantum systems reach thermal states through eigenstate analysis.

Study reveals significant phase transitions in gauge-Higgs interactions.

Exploring the role of fluctuations and entropy in small thermodynamic systems.

A new method enhances predictions for complex distributions using moment closure.

This study reveals time-symmetric properties in open quantum systems despite environmental influences.

This article explores adjustments to Onsager's hypothesis in quantum physics.

This article examines lower tail probabilities in the stochastic six-vertex model.

This study examines how boundary conditions affect relaxation time in one-dimensional physical systems.

A look at how defects affect material properties at high temperatures.

A new method improves the creation of thermal pure states for quantum systems.

Examining how edge weights influence matchings in rail-yard graphs with links to random matrices.

Exploring the implications of group actions on the structure of von Neumann algebras.

Delving into many-body localization and energy level behavior in quantum physics.

This article examines how Brownian particles relax back to equilibrium over time.

A look at how random movement affects particles in various interactions.

This study explores how boundaries affect dimer arrangements in finite systems.

Dimer models reveal intriguing patterns through arrangements on grids.

Examining how quantum effects change behavior in small-scale systems at high temperatures.

Analyzing complex systems through random matrix models in various fields of physics.

This study seeks to reduce transition times between states in Brownian gyrators.

Exploring how many-body systems resist thermalization and retain their localized states.

An overview of phase transitions in classical and quantum systems.

A look into the Type D ASEP and its complex interactions.

This article explores quantum chaos via correlation functions and various models.

Examining minimal models and their impact on quantum phenomena.

A study on how barriers affect random walks using the method of images.

Exploring the complexities of many-body systems and their dynamics.

Examining thermodynamic behavior and phase transitions of rotating black holes using Kaniadakis statistics.

New models improve understanding of anharmonic oscillators' energy levels.

Examining the Potential Hessian Ascent algorithm in spin glass systems.

Research reveals how open quantum systems interact and transition between phases.

Study reveals patterns of particle movement in complex settings.

An overview of four-dimensional SCFTs and their significance in modern physics.

Advancements in Quantum Monte Carlo enhance analysis of quantum phase transitions.

This paper looks at particle behavior in random environments and maximum positions.

A novel approach reveals insights into quantum systems using density patterns.

A deep dive into the complexities of the binary symmetric perceptron.

Exploring random walks on the associahedron and their mixing times.

This article examines how asymmetrical confinement affects Brownian particle movement.

Exploring irreversible behaviors in isolated quantum systems and the role of local states.