Latest Articles for Phase Transitions

Research offers new methods for accurate calculations of effective potentials during phase transitions.

New insights from LIGO data on gravitational waves and theoretical physics models.

Exploring how large deviations theory sheds light on defect formation during phase changes.

An insightful look into phase transitions in a three-state SOS model.

Research on the split majoron model offers new insights into gravitational waves and cosmological issues.

This research explores how complex models may explain baryon asymmetry in the Universe.

Exploring how phase transitions relate to atomic arrangements and elasticity in materials.

This article explores the role of critical dimensions in phase transitions and their implications.

Exploring the significance of randomness in quantum computing through Brownian circuits.

Understanding clusters can reveal secrets about complex systems and phase transitions.

Exploring how machine learning helps analyze complex systems in physics.

Exploring unique behaviors in non-Hermitian systems and their phase transitions.

A new method for measuring quantum entanglement using SVD entanglement entropy reveals deeper connections.

Exploring key concepts in lattice gauge theory and their implications for physics.

A model revealing behavior in open quantum systems influenced by dissipation and magnetic fields.

Exploring the role of stochastic dynamics in systems with randomness and decay to equilibrium.

Study examines phase transitions in XXZ spin chains influenced by local baths.

A study on charged black holes within modified gravity theories and their thermodynamic properties.

Explore the behavior of bosons and their fascinating phase transitions in quantum mechanics.

Exploring the unique properties of CeRh As under varying conditions.

Gravitational waves may reveal secrets about the early universe and cosmic events.

Exploring how dark matter and thermal effects influence black hole behavior.

Study reveals critical points and phase transitions in a one-dimensional spin model.

A closer look at the unique properties of MOF perovskites and their applications.

Exploring the nature and implications of Brownian loop soups in various fields.

This article highlights machine learning's role in analyzing phase transitions.

A look at how mass arises using the Higgs Mechanism and Catastrophe Theory.

Recent findings on gravitational waves may reveal the role of heavy QCD axions.

Exploring spin interactions in the Sherrington-Kirkpatrick model at high temperatures.

Study reveals how energy loss impacts the behavior of spin-chains in quantum materials.

Study reveals how ion bombardment alters magnetic behavior in manganese arsenide.

Investigation of quantum phase transitions using the extended Jaynes-Cummings model and a new method.

A look into how quartz changes structure during heating.

Researchers study honeycomb structures to reveal unique electronic behaviors in materials.

Exploring the interactions and behaviors in layered cellular automata systems.

R enyi entropy helps quantify diversity in ecosystems and other complex systems.

Explore how random allocation models reveal patterns in diverse systems.

Exploring the unique properties and behaviors of neutron stars.

Researchers investigate high-pressure superconductors for practical applications in energy.

Examining how string clouds affect black holes' properties and stability.