Latest Articles for Edge States

New principles pave the way for studying non-Hermitian materials without adverse effects.

This article discusses the properties and applications of one-dimensional non-hermitian systems.

A new method for manipulating edge states enhances quantum operations and information transport.

Research on WTe₂ reveals its potential for advanced electronic applications.

An overview of unique properties and potential applications of two-dimensional Weyl semimetals.

This article examines how CdAs films react to different magnetic fields.

A look into the unique electronic behaviors of biphenylene network materials.

Study reveals how impurities alter edge states in topological materials.

New insights into topological materials using advanced quantum simulations.

Exploring the uses of topological Fano resonance for advanced sensing applications.

Researchers uncover unique electron behaviors in two-dimensional Dirac materials.

A look into the unique behavior of bosons in a Creutz ladder setup.

Investigating unique properties of fractional quantum spin Hall insulators and their potential applications.

This article examines particle behavior near boundaries in tight-binding models.

Research reveals how nonlinear behaviors can protect topological properties in various systems.

Exploring the link between magnetization and edge currents in materials.

An overview of chiral edges and their relevance in quantum mechanics.

Researchers visualize key edge states in fractional Chern insulators using innovative microscopy.

Exploring edge states in optical lattices and their implications for quantum technologies.

Research sheds light on edge states and higher Hall conductivity in topological materials.

Examining unique properties and behaviors of topological phases in materials.

Researchers manipulate topological polaritons within optomechanical ladders for advanced applications.

Research reveals complex electron behavior in next-nearest neighbor SSHH model.

Exploring the significance of AMOC in Earth's climate and its potential changes.

Research reveals key factors affecting edge plasmons in V-doped bismuth selenide films.

Research reveals how neural networks struggle with generalization in quantum physics applications.

This article explores topological edge states and their role in materials properties.

New data-driven methods enhance understanding of topological insulators and their unique properties.

Exploring the unique behaviors of light in topological insulators and their applications.

A look into the Quantum Hall Effect and its implications in graphene research.

This study reveals how edge states form in a two-leg ladder system.

Research reveals unique properties of edge states in honeycomb structures and high-fold fermions.

Researchers reveal geometric features of multipartite entanglement in two-dimensional quantum systems.

Researchers develop a technique to measure electron states in topological chains.

Studying the unique properties of anyons in quantum Hall systems.

Chern insulators show promise in innovative technologies like quantum computing.

Exploring the unique properties of magnons in altermagnets.

Research reveals how symmetry influences the non-Hermitian skin effect in physics.

Exploring how edge imperfections and magnetic fields affect topological insulators.

Researchers investigate multi-gap topological phases using quantum rotors under periodic driving.