Latest Articles for Thermodynamics

Understanding quark behavior in strong magnetic fields reveals key insights.

A look at methods for preparing Gibbs states using quantum algorithms on NISQ devices.

A closer look at phase transitions, relaxation times, and system behaviors.

Research reveals unique properties of Fermi gases with adjusted interactions.

Insights into how systems react to changes and disturbances.

A study on how oscillators behave under various influences.

Examining the behavior and properties of unique spin-nematic phases in materials.

Exploring how noncommuting charges affect thermalization in quantum systems.

New methods enhance the prediction of activity coefficients in liquid mixtures using machine learning.

Research explores energy changes in systems not in steady states.

Exploring the shifts in stable states through vacuum decay and bubble nucleation.

A look into the effects of nonreciprocal materials in vacuum conditions.

Exploring a new method for understanding the Ising model's behavior.

Exploring rigidity's role in phase transitions of materials at zero temperature.

Exploring the unique thermodynamic properties of rotating black holes.

Examining how tiny systems behave differently from larger ones.

An overview of quantum Brownian motion and its significance in modern physics.

Examining how magnetic fields influence QCD matter in high-energy collisions.

Exploring how gravity affects gas dynamics in astrophysical contexts.

A study of heavy quarkonium's response to extreme conditions in quark-gluon plasma.

This article explores how chiral helical structures stabilize under pressure changes.

Exploring thermodynamic behaviors in modified black hole models influenced by electric fields.

Exploring how temperature and magnetic order affect materials' properties.

An exploration of particle classification and the introduction of transtatistics.

Investigating the complex magnetic behaviors in disordered materials.

Exploring how different particle shapes affect melting processes.

This study examines how thermodynamics interacts with charge flow in quantum dots.

Study of spins in black hole backgrounds reveals significant phase transitions.

Analyzing how quantum systems respond to changes in their environments.

This study examines the effects of alternative Gibbs measures in hard-core models.

Exploring methods for energy-efficient transformations of qubit states.

A look at one-time measurement schemes in quantum thermodynamics and their impact.

Study shows how stochastic resetting affects energy use and information loss.

Understanding the microlayer's role in efficient heat transfer during nucleate boiling.

Examining f(R) gravity through the lens of thermodynamics and its cosmic implications.

This article examines how spins behave when coupled to several environments.

Exploring the connection between thermodynamics and quantum information for efficient technology.

Exploring the link between gravity, entropy, and cosmic expansion through new models.

Exploring how information influences energy and efficiency in thermodynamic systems.

Research explores quantum critical points and their impact on material behavior.