Latest Articles for Condensed Matter Physics

Discover how thermal entropy influences antiferromagnetism in ultracold fermions.

Exploring how strongly correlated electrons behave in unique materials.

A look into unique materials that conduct electricity on their surfaces.

This article explores the fascinating interplay of vortices in superfluid quantum states.

Discover how vortex and corner modes interact in topological superconductors.

Examining charge and heat transport in the Rice-Mele chain model.

New findings reveal how magnetic fields alter graphene’s states through the Dirac sea.

Exploring how dissipation affects critical behavior in fermionic systems.

Discover the unique behavior of vortices in Bose-Einstein condensates.

A deep dive into how superconductivity and CDWs coexist in kagome metals.

Study reveals interaction of excitons and phonons in Ta NiSe material.

Exploring the intriguing properties of tilted non-Hermitian Dirac semimetals near quantum critical points.

A look into excitons and their behavior using composite boson models.

Cu (HOTP) showcases unique properties as a quantum spin liquid within a kagome lattice.

Understanding Renyi entropy helps explore complex quantum systems and their interactions.

A look into the fascinating Nernst effect in layered telluride materials.

Discover how sudden changes in quantum systems reveal complex behaviors and insights.

Discover how neural networks are advancing our understanding of fractional quantum Hall states.

Explore the fascinating effects of nonlinear coherent modes in Bose-Einstein condensates.

Explore the mysteries of spin liquids and supersolids in physics.

Discover the intriguing magnetic properties of Na BaMn(PO₄) and its transitions.

Discover how Weyl semimetals and Floquet engineering shape the future of technology.

A look into topological phases and their unique properties.

Dive into the intriguing world of Bose-Einstein condensates and their unique properties.

Exploring the superconducting properties of strontium titanate and its complexities.

Discover the intriguing world of fermionic Gaussian states and their quantum magic.

Explore how Yang-Lee zeros connect classical models and quantum dynamics.

Researchers uncover new behavior of particles in two-dimensional materials.

Explore the significance and impact of charge density waves in materials science.

Discover the complex interactions of spin-3/2 fermions in light-filled grids.

Scientists study how collisional scattering impacts molecular Bose-Einstein condensates in optical lattices.

Uncovering unique states in quantum systems that defy conventional behavior.

Discover how edge modes navigate imperfections in materials.

Uncover the fascinating world of the fractional quantum Hall effect and its unique electron states.

Discover unique electronic properties of Weyl semimetals and their real-world implications.

Discover the intriguing world of spin liquids and their unique behaviors.

Research reveals fascinating states in twisted bilayer graphene, transforming our grasp of quantum materials.

Unraveling the exciting world of pseudospin-1 fermions and their potential in technology.

Discover how monolayer 1T-MoS2 could transform electronics with unique properties.

Discover the strange behavior of metals and the role of Quantum Fisher Information.