Latest Articles for Thermodynamics

Research reveals effects of higher-order gradients on spin polarization in high-energy environments.

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

Discover how the vacuum plays a crucial role in physics.

Examining how liquid and gas phases exist together under varying energy conditions.

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

Investigating how rhombohedral graphene's unique properties impact technology and science.

Exploring the relationship between many-body localization and thermal states in physics.

Examining the role of entanglement entropy in quantum systems and their relations.

Study reveals behaviors of charged black holes in relation to monopole charges.

Exploring the connection between gravity and quantum mechanics reveals new insights into the universe.

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

An overview of evaporative cooling techniques for ultracold polar molecules.

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

Exploring how information loss connects black holes and cosmic horizons.

A look into the connections between quantum mechanics and black hole properties.

Examining how information sharing affects energy in relativistic contexts.

Exploring the impact of randomness in mathematical models of fluids and heat.

Exploring how distant particle interactions shape material behavior.

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

A look into the mechanisms influencing resistivity in materials.

A fresh look at how nuclear movement affects material phase changes.

Causal diamonds reveal complex thermal properties in quantum systems.

A look into how causal diamonds shape thermal perceptions in quantum mechanics.

Examining how atomic arrangements affect phonons and heat storage in materials.

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

A closer look at how the hypersphere model helps understand viscous liquids.

Insights into Bardeen black holes and their unique thermodynamic properties.

Discover the fascinating behaviors of quantum quasicrystals and their excitations.

Exploring how quantum systems interact with weak gravitational fields and produce entropy.

Investigating the dynamics and entropy of charged black holes during phase transitions.

An overview of phase transitions in classical and quantum systems.

Research reveals thermal stability in entangled quantum states and implications for information theory.

Study reveals energy and information links in quantum processes.

A study on how vortices interact in counterflowing superfluids and their implications.

Examining how quantum environments shift between heat baths and work reservoirs.

A study on neutron matter behavior under varying densities and conditions.

Research reveals new entropy models affecting black hole thermodynamics and phase transitions.

Research reveals how energy moves in quantum systems using advanced simulations.

Examining how slow evolution affects information scrambling in quantum systems.

A look into thermodynamics, heat engines, and their efficiency.