Latest Articles for Phase Transitions

Examining the behavior of atomic nuclei under extreme temperatures and densities.

A study of slowly rotating magnetized black holes reveals intriguing properties and behavior.

Research on iron's behavior reveals effects of pressure and temperature.

Studying how agents interact reveals insights into complex behaviors.

This article looks at how height functions relate to spin models in physics.

This study analyzes particle number fluctuations during liquid to gas phase changes.

Investigating enhanced tensor models to deepen our knowledge of gravity and spacetime.

New modeling techniques enhance understanding of material properties through symmetry.

Explore structural phase transitions and their significance in material science.

Studying the nature of spacetime through causal dynamical triangulations.

This study assesses CNNs for classifying percolation states in physics.

Examining complex spin chains through simpler Ising models reveals new quantum behaviors.

Researchers calculate critical exponents using advanced methods in theoretical physics.

A look into the relationship between charge superconductivity and pair density waves.

New tools aim to enhance understanding of materials during phase transitions.

Examining the link between gravitational waves and dark matter through scale-invariant models.

Exploring techniques for handling complex series in particle interactions.

Investigation of soliton behavior under varying magnetic conditions reveals complex phase transitions.

Exploring unexpected phase transitions in the Abelian-Higgs model's lattice version.

New training approach enhances predictions of zirconium's behavior with hydrogen.

Kagome metals exhibit unique charge-density waves and superconductivity, inviting deeper exploration.

Investigating how black holes behave in higher dimensions and their thermodynamic properties.

Scientists explore WIMP freeze-in as a new model for dark matter.

Explore the significance and challenges of multiplex networks and distributed optimization.

Researchers study methods to safeguard quantum data from noise interference.

A look at how Majoron models link neutrino mass and gravitational waves.

Analyzing hairy black holes and their stability in anti-de Sitter space under specific conditions.

An overview of black holes, their properties, and thermodynamics.

Exploring the impact of multiple branes on the universe's structure and behavior.

Exploring how rotation affects the properties of hadron gas in high-energy collisions.

Explore the unique properties and behaviors of superfluids in various conditions.

A look at the phases and properties of lipid bilayers in cell membranes.

Studying low-scale phase transitions and their impact on neutrinos and light element formation.

Examining the unique features and behaviors of hairy black holes.

A new method connects machine learning and mutual information in classical spin systems.

This article explores pion-kaon scattering and its significance in high-temperature particle physics.

Research reveals unique behaviors in quantum spin systems with non-Hermitian properties.

This article discusses how magic impacts quantum computing performance.

Learn how primordial black holes might form and be studied.

Examining black holes through Tsallis entropy offers new insights into their mysteries.