Latest Articles for Condensed Matter Physics

This article investigates the behavior of excitons in layered 2D materials.

A deeper look into quantum oscillations and their implications for modern materials.

Twisted bilayer graphene shows unique electronic states based on twist angle and interaction strength.

How magnetic monopoles interact with topological insulators and gain electric charge.

Researchers investigate how quantum liquid filaments turn into droplets under various conditions.

Exploring the unique properties and effects of magnetic Weyl semimetals.

Investigating classical spin liquids reveals new insights into magnetic systems and potential technologies.

This article examines the unique magnetic characteristics of Sr CoTa O material.

Research reveals helical order in EuCuAs can create Weyl nodes.

An insight into singular flat bands and their impact on material properties.

Researchers demonstrate chiral supercurrents in graphene for future quantum computing.

Recent experiments shed light on the complex nature of itinerant ferromagnetism.

Exploring the behavior and applications of spin-1 particles in quantum systems.

Research on electron behavior in 2D materials reveals new potential applications.

New insights into exciton behavior in Mott insulators could transform material properties.

New insights into particle interactions and configurations in TMD materials.

Examining how superconducting circuits advance our grasp of quantum mechanics and information transfer.

New approach to study massless particles under complex forces.

Exploring kinetic energy distribution in quantum systems and thermalization processes.

Investigating the distinct properties of Ising superconductors in varying conditions.

PtBi surfaces show superconductivity, paving the way for Majorana fermions in quantum devices.

Helical trilayer graphene shows potential for unique electronic behaviors and states of matter.

This article examines the significance of two-particle bound states in physics.

Research unveils critical insights into charge density waves and electronic properties of VTe.

Exploring the unique magnetic properties of BaCuTe2O6 and its quantum behavior.

Researchers find ways to control the spin of polariton condensates using lasers.

Researchers expand spin chain models to uncover new quantum behaviors.

Exploring how information spreads in metals influenced by disorder and impurities.

An overview of recent research on topological phases in physics.

Research reveals complex interactions in iridium materials affecting electronic behavior.

Exploring the complexities of fermionic systems in quantum mechanics.

Research reveals phase transitions in a classical loop model on a square grid.

Research dives into the role of dopants in antiferromagnetic materials.

Researchers examine superconductivity formed through light excitation rather than cooling.

Using entropy constraints to improve ground energy calculations in complex quantum systems.

Study reveals unique magnetic behaviors in cesium superoxide at low temperatures.

Study reveals the unique properties and ordered states of twisted bilayer graphene.

Learn how Effective Field Theories simplify complex physics processes.

Research reveals intriguing properties of pyrochlore iridates near quantum critical points.

Investigating the fascinating phenomena of the quantum Hall effect and its implications.