Latest Articles for Thermodynamics

Explore the connection between thermodynamics and machine learning to simplify complex systems.

A look at how black holes may reveal secrets of the early universe through gravitational waves.

New computational techniques improve gas behavior predictions in aerospace applications.

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

Exploring the impact of noncommuting charges on quantum thermalization processes.

Researchers enhance thermal state preparation using quantum Gibbs samplers for improved simulations.

Examining unique properties and behaviors of supersolids in material science.

A new method for preparing ground states in quantum systems using cooling techniques.

Explore the unique properties of quantum BTZ black holes and their thermodynamic behaviors.

A study of magnetism using the Ising model on a unique lattice structure.

Research on four urns reveals unique non-equilibrium behaviors.

New methods improve accuracy and efficiency in simulating gas flows under extreme conditions.

Scientists investigate particle and entropy movement in fermionic superfluids far from equilibrium.

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

A look into why hot water can freeze faster than cold water.

An overview of the Kirkwood-Dirac distribution and its significance in quantum mechanics.

tLaSDI merges thermodynamics and machine learning to model complex dynamic systems.

Study the movements of fluids influenced by temperature differences in vertical settings.

Exploring the SYK model's impact on understanding quantum gravity and spacetime dynamics.

Examining how object shapes affect heat flow efficiency.

Exploring the role of interfaces in quantum field theories and their implications.

Exploring the relationship between black holes and entropy in our universe.

Discover how quantum thermodynamics reshapes energy efficiency and technological applications.

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

Examining fluid behavior in high-energy nuclear physics through transport coefficients.

This article discusses methods for calculating high temperature series expansions for magnetic materials.

Exploring the link between chaos theory and black holes.

Vacuum energy density influences the universe's expansion and presents unique challenges in physics.

This article explores spontaneous processes in non-equilibrium systems and their applications.

Exploring the significance of irreversible processes in thermodynamics and mechanics.

Exploring the relationship between energy, information, and living systems.

An overview of the Casimir effect and its implications in quantum physics.

Exploring the benefits of coherent quantum heat engines over traditional models.

Examining the effects of non-extensive Tsallis statistics on quark-hadron phase transitions.

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

A closer look at the thermodynamic properties of one-dimensional bosonic systems.

This study reveals insights into particle interactions and phase transitions in Yang-Mills theory.

This article examines bubble formation and microlayer dynamics in varying pressure conditions.

Explore the mechanisms and significance of phase transitions in materials.

Exploring the link between black holes, entropy, and quantum mechanics.