Latest Articles for Phase Transitions

This article discusses using machine learning to speed up DFT calculations in materials science.

Examining thermodynamic behavior and phase transitions of rotating black holes using Kaniadakis statistics.

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

This article discusses the unique one-way quantum cascade phenomenon and its implications.

Machine learning techniques offer fresh insights into unpredictable chaotic systems.

Explore the potential of quantum batteries and local ergotropy in energy extraction.

This article examines a model for phase changes in materials like steel and ice.

An overview of charged Gauss-Bonnet black holes and their thermodynamic implications.

Advancements in Quantum Monte Carlo enhance analysis of quantum phase transitions.

Exploring the role of radiative symmetry breaking in mass generation and cosmic phenomena.

Exploring the properties and shadows of black holes in the universe.

Research on moiré superlattices reveals new phases in layered materials.

Exploring the impact of electroweak monopoles and primordial black holes on the universe.

Exploring black holes through the lens of thermodynamics and complex analysis.

Research reveals new material behaviors through light interactions in cavities.

New findings challenge established theories on TiSe2's phase transition behavior.

Research on as-deficient MnAs reveals unique structural and magnetic behaviors.

This research examines how k-regular graphs behave under percolation.

This article explores the behavior of graphs during edge retention randomness.

Exploring the unique properties of Gd La PtSb films and their potential uses.

Study of rod-like particles reveals important phase behavior under varying conditions.

An overview of fermion interactions in the Gross-Neveu model's phases.

Exploring how quadrupoles can change material properties through unique arrangements.

Examining the impact of bubble walls on phase transitions and gravitational waves.

Investigating how impurities affect magnetic properties in Kitaev materials under strong magnetic fields.

A study on modifying random matrix models in Quantum Chromodynamics for high-density conditions.

A look into how disordered materials behave under different conditions.

A look into neutron stars and their significance in understanding matter under extreme conditions.

Investigating how Yttrium affects the electrical properties of Lanthanum Yttrium Cobalt Oxide.

Researchers study how sound travels in extremely dense neutron stars.

Research reveals magnetic fields significantly alter QCD's topological features across temperatures.

Merons influence skyrmion behavior and phase transitions in magnetic materials.

A fresh perspective on how dark matter emerges from early universe conditions.

Exploring phase transitions in a unique magnetic system with long-range interactions.

Scientists study quark-gluon plasma to learn about the early universe.

An analysis of how entry distribution affects the bottom singular vector.

Research reveals temporary superconducting states in graphene and their implications.

New detectors promise deeper insights into cosmic events through gravitational waves.

Exploring the properties and interactions of polarized Fermi gases.

Examining how gravitational waves form during early universe phase transitions.