Latest Articles for Order Parameters

This article explores the unique properties of superfluids near critical temperatures.

Explore how synchronization impacts nature, technology, and health.

Examining how systems slow down near critical points and phase transitions.

Investigating spontaneous edge currents in unique superconducting materials.

Study reveals links between classical magnets and exotic spin liquid states.

Exploring phase transitions in quantum systems influenced by infrared radiation.

Exploring the behavior of liquid crystals during phase transitions.

A look at how different systems synchronize over time.

A study reveals the melting behavior of the 1/3 plateau and its implications.

Exploring Nambu-Goldstone fields and their role in symmetry breaking in physical systems.

A look into how oscillators achieve synchronized behavior through the Kuramoto model.

Exploring how quantum systems behave during phase transitions and their link to entropy.

A look into SrCuTeWO and its unique nonmagnetic properties.

This study reveals how container shapes influence particle movement and distribution.

A new theory reveals insights into continual learning and forgetting in AI.

A look at methods to measure collective behavior in biological systems.

A simpler and more accurate approach to simulate two-phase fluid flows.

This article explores how strong confinement influences the dynamics of superfluid order parameters.

A look into how domain walls form in materials under ultrafast conditions.

Research reveals how light affects the behavior of BCS superconductors.

Exploring how the Kuramoto model enhances reservoir computing performance in machine learning.

A look into quantum phase transitions and innovative methods for studying them.

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

Scientists study matter formed in heavy-ion collisions to reveal its complex behaviors.

Exploring how cells move together and communicate during biological processes.

This study examines how animal perception influences group movement.

New methods to control synchronization in systems with multiple oscillators show promise.

This program analyzes spins to reveal phase changes in materials.

A fresh look at the quantum Hopfield model reveals new insights.

A look into quantum magnetism and the Gamma interaction in spin systems.

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

Exploring how changing magnetic fields affect material behavior through a unique model.

Study of swarmalators reveals new states in collective movement and interaction.

Exploring how oscillators synchronize in various systems.

Research on managing synchronized movement in swarmalators reveals new insights.

Discover the fascinating changes materials undergo during phase transitions.