Latest Articles for Thermalization

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

Exploring the potential and challenges of many-body quantum heat engines.

Exploring the impact of noncommuting charges on quantum thermalization processes.

Researchers investigate quantum systems and the challenges of reaching thermal equilibrium.

Exploring how harmonic chains reach thermal equilibrium and the role of disorder.

Researchers analyze chromium atoms' spin behavior in a 3D optical lattice.

A look into how thermalization occurs in quantum mechanics.

Research shows how quantum systems can efficiently prepare Gibbs states for enhanced computing.

A look into how dark matter interacts within white dwarfs.

Exploring how particle interactions affect the efficiency of quantum Otto engines.

A new method improves quantum sampling efficiency for complex problems.

Discover how many-body localization challenges traditional thermalization concepts in quantum physics.

Research reveals interesting behaviors in quantum many-body systems with non-Abelian gauge theories.

Hotter quantum systems can freeze faster than cooler ones under specific conditions.

Exploring innovative ways to enhance quantum battery performance and energy extraction.

Examining bubble dynamics in quantum systems reveals insights into the early Universe.

CSPs challenge existing particle theories, revealing exciting new behaviors and interactions.

Research on energy dynamics reveals chaos in quantum atom-photon systems.

Research reveals how gravitational waves formed during the universe's reheating phase.

Scientists study how disorder affects thermalization in trapped bosonic atoms.

Research reveals how mesons are created in extreme particle collisions.

Exploring how quantum systems reach thermal states through eigenstate analysis.

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

This article explores the processes from cosmic inflation to a hot universe.

A comprehensive look at hydrodynamics and its fundamental principles in fluid mechanics.

Research on heavy flavor quarks in nuclear environments reveals insights into heavy-ion collisions.

Research highlights metastable subspaces' potential to improve quantum information systems.

A study of how opinions change over time in social groups.

Exploring nonequilibrium behaviors in quantum systems reveals complex dynamics and thermalization processes.

Investigating how systems behave without detailed balance under various temperature conditions.

A closer look at the Quantum East Model and its unique behaviors.

Investigating unique states that defy typical thermal behavior in quantum systems.

Researchers streamline methods for creating pseudorandom states in quantum mechanics.

Explore the significance and preparation of Gibbs states in quantum systems.

Exploring how information behaves in quantum systems and the role of chaos.

Researchers blend quantum circuits to deepen understanding of complex systems.

An overview of quantum chaos, thermalization, and their interconnections.

A journey through the universe's quantum quirks and cosmic interactions.

Examining charge and heat transport in the Rice-Mele chain model.

Researchers study excitons in MoS to unlock new light technologies.