Latest Articles for Thermodynamics

Exploring how information spreads in quantum systems using quantum computers.

An overview of dyonic black holes and their fascinating thermodynamic properties.

This study examines the timing of first passage events in classical and quantum processes.

Examining energy conversion and control in double quantum dots using Maxwell's demon.

A revised OU process addresses random fluctuations in particle behavior.

Examining how relativistic stars respond to adiabatic perturbations and their implications.

Discover the unique behaviors of living systems driven by energy.

Exploring the magnetocaloric effect and its applications in cooling systems.

Exploring transformations of entangled states using entanglement batteries.

Study reveals how magnetic properties affect quantum heat engine efficiency.

Examining how temperature differences in QGP create electric fields in heavy-ion collisions.

Exploring the relationship between quantum behavior and thermodynamic principles.

Discover how temperature differences allow tiny objects to move on their own.

Exploring connections between black holes and confined quantum fields through thermodynamic features.

This article examines how disclinations affect quantum particle behavior in various fields.

A look into the thermodynamics and properties of quantum gases.

An analysis of harmonic chains starting in non-equilibrium states.

A look into holographic dark energy and its role in the universe's expansion.

A new method combines machine learning with coarse graining for better material modeling.

A look into how mass and temperature affect particle interactions.

Exploring the role of trapped ions in quantum heat engines and refrigerators.

Examining the resilience of k-local quantum systems amidst external disturbances.

A new look at the Ising model reveals surprising thermodynamic properties.

A study of tensor networks in hyperbolic space to analyze quantum states and phase transitions.

Research explores quantum states under less-than-ideal conditions.

Examining shear viscosity in Quark Gluon Plasma across varying densities and temperatures.

GHD provides insights into the behavior of interacting particles in various physical systems.

A look into the thermodynamic features of RN-dS black holes and the Schottky anomaly.

Researchers study entropy concepts to improve understanding of dark energy and universe expansion.

Exploring how thermal correlators reveal properties of black holes.

Exploring thermodynamics through the card game UNO.

An overview of thermodynamics relating to black holes and the universe's horizons.

This study investigates randomness across various operational theories, extending beyond quantum systems.

Explore how thermostats influence particle movement on surfaces in mathematics and physics.

This study examines hafnia's behavior under varying temperatures and pressures using machine learning.

This article examines the heating phase in periodically driven quantum field theories.

Explore the complexity and significance of nonlinear circuits in electrical systems.

A study on improving vibrational property predictions for materials using machine learning.

This study examines thermal behaviors in complex scalar fields and fermions.

Research uses digital quantum computers to study weakly interacting dissipative systems.