Latest Articles for Flat Bands

Research on twisted bilayer graphene reveals unique electronic properties and potential applications.

A look into quantum graphs, their structure, coupling, and spectral characteristics.

Exploring the unique properties and applications of flat bands in light manipulation.

Research reveals the unique electronic properties of twisted bilayer graphene.

Research explores flat bands and their effects using Rydberg atoms.

A new database streamlines studies of twisted materials, enhancing research efficiency.

A look at how flat bands and heavy fermions shape material properties.

Discovering unique properties and potential applications of twisted bilayer graphene.

Discover the potential of waved-brim flat-top hat bands in advanced electronics.

Twisted multilayer graphene displays unique electronic properties, enabling future technologies.

A look into the electronic behavior of twisted bilayer graphene and its significance.

Amorphous materials offer unique properties for advancements in optics and electronics.

Discover the potential of moire materials and their unique electronic states.

Exploring how strain and lattice relaxation affect twisted bilayer graphene's electronic behavior.

Exploring the role of high-order singularities and flat bands in material properties.

Research on light-controlled magnetic materials aims to improve data storage technologies.

A new tool boosts the search for materials with flat electronic bands.

1T-TaS2 showcases remarkable electronic properties, potentially useful in advanced technology.

Examining how removing electrons can improve superconducting properties in flat band systems.

Exploring the unique features of NbOCl monolayer in materials science.

Exploring Majorana particles and their implications for future quantum technologies.

Examining flat bands and their role in improving superconductors.

Research on Fe GaTe reveals potential for efficient spintronic devices.

Research reveals unique properties of twisted TMD layers for future technology.

Researchers enhance control over neutral atoms using Rydberg atoms in lattice structures.

LK-99 reveals unique electronic properties despite earlier superconductivity claims.

A look into how twisted bilayer graphene impacts superconductivity and charge orders.

Exploring nonlocal moments and their effects on twisted bilayer graphene's electronic properties.

Explore how hexagonal lattices impact particle behavior in quantum graphs.

Exploring superconductivity in materials with complex band structures.

This article discusses how electrons can localize in zero flux situations.

Research highlights the role of quantum geometry in electron interactions.

Research reveals electronic properties of twisted MoSe2 and WSe2 lattices.

A look into flat bands and superluminal light movement.

Exploring flat bands and their potential in cutting-edge technologies.

Gold nanotubes reveal surprising properties that could change technology.

Examining how electron wavefunctions and band geometry contribute to superconductivity.

Exploring the unique properties and potential of flat band superconductors.

Flat bands reveal unique properties in materials, influencing electron interactions.

Discover the unique behaviors of superconducting junctions and their potential applications.