Latest Articles for Thermodynamics

A novel thermodynamic cycle outperforms the Carnot cycle under specific conditions.

Research centers on the capabilities of quantum thermal machines in energy management.

A look into how energy operates at small scales in quantum thermodynamics.

This study examines factors affecting the assembly behaviors of building blocks.

An insight into entropy and its role in natural systems.

Improved understanding of entropy production rates using detailed fluctuation theorem.

New insights into black holes challenge the concept of lost information.

Exploring the concept of First Passage Time in quantum measurements.

Enhancing traditional refrigeration methods with measurement processes for better efficiency.

Exploring the connections between acceleration, temperature, and hydrodynamics.

Research into black holes with torsion reveals new insights about gravity and thermodynamics.

Examining memory effects and strong coupling in quantum thermodynamics.

Examining the interactions and properties of de Sitter and AdS spaces.

A look into vapor-liquid phase separation and its implications.

Examining how global monopoles alter particle behavior and energy levels in spacetime.

Explores the relationship between black hole thermodynamics and cosmic growth.

A probe technique allows insights into hard-to-reach thermodynamic systems.

Explore how quantum mechanics enhances engine performance using q-deformed oscillators.

Exploring the effects of electric fields on the QCD model and quark-gluon plasma states.

Examining the cosmological constant and entropy in the universe's expansion.

This article examines how small black strings respond to changes in their environment.

A study on the impact of Bose-Einstein condensates in quantum Otto engines.

This article studies how particle interactions affect their distribution in a confined space.

A look into the properties of non-extremal black holes with multiple charges.

This article explores the unique thermodynamic properties of black holes.

Research reveals boiling behaviors in nanopores, crucial for cooling technologies.

A look into how particles behave under external forces and fluctuation relations.

Examine the role of irreversibility across thermodynamics and information theory.

Researching measurement methods to improve quantum engine efficiency.

This paper examines variational principles applied to non-barotropic fluid behavior.

Explore how quantum scattering affects particle states and entanglement.

Study reveals complex dynamics and unique phases in frustrated magnetic systems.

Researching baryon behavior in extreme conditions reveals insights into phase transitions.

Examining how generalized subsystems improve our grasp of quantum mechanics.

Examining equalities in thermodynamics to enhance energy optimization across systems.

Helium-3 exhibits unique heat conduction behaviors at low temperatures, challenging traditional theories.

Examining heat conduction in 2D chains of oscillators affected by magnetic fields.

A deep dive into the unique structure and behavior of neutron star crusts.

Examining heat transfer and sound wave behavior in polyatomic gases.

This study focuses on atom correlations to understand ultracold gas behavior.