Latest Articles for Phase Transitions

Recent NICER findings reveal complexities in neutron star structures and behaviors.

Exploring the complexities of non-Hermitian quantum systems and their implications.

This article studies how temperature changes affect silicon surface structures.

Exploring how measurements influence quantum states and lead to phase transitions.

Exploring how quantum principles reshape our view of population changes over time.

This study reveals the complex dynamics of kicked tops under chaotic conditions.

Exploring the relationship between black holes and thermodynamic principles.

Explore how randomness affects physical systems and material properties.

Exploring theoretical models to analyze properties of two-dimensional materials like graphene.

This study explores how opinions influence movements in a two-dimensional space.

A fresh theory explores baryon asymmetry using phase separation of particles.

Resource constraints impact how living beings process information from their environment.

New techniques improve simulations of the Schwinger model using quantum computing.

Exploring how active particles behave and interact in various conditions.

A look into the unique properties of quark stars and their impact on astrophysics.

Investigating the unique behaviors and transitions of self-moving matter.

A look into how light and matter interact through Quantum Electrodynamics.

This article examines gauge theories and their behavior during temperature variations.

New methods improve equations of state for neutron stars using Chebyshev polynomials.

This article explores how electron-phonon interactions affect metal stability under varying conditions.

A study on using machine learning to analyze material phase changes.

A look at how the Potts model explains complex phase transitions in materials.

A deep dive into phase transitions and their significance in materials science.

Discover the fascinating behaviors of particles and their transformations.

Research into phase transitions reveals complexities in frustrated magnetic systems.

This program analyzes spins to reveal phase changes in materials.

Explore how tiny particles reveal phase transitions through playful models and analogies.

Explore the science behind phase transitions and their real-world applications.

Dive into the complexities of black holes and their cosmic significance.

HoCo's unique properties show promise for innovative cooling applications.

Water exhibits strange behaviors that puzzle scientists and challenge our expectations.

Exploring the connections between gravitational waves and the real-scalar extended Standard Model.

Discover how cosmic strings and axions shape our understanding of the universe.

Discover how gravitational waves reveal secrets of the universe's early moments.

Kagome metals show unique behaviors during phase transitions influenced by temperature changes.

A look at how percolation theory and branching processes relate.

A study on using machine learning to understand material phase changes.

Explore how particles interact and change energy in a billiard-like setup.

Explore how length affects the melting of silver nanowires and its importance.

An overview of frustrated spin systems and their intriguing properties.