Latest Articles for Electron Behavior

A new method for calculating electron behavior in molecules by incorporating memory.

A look at Hubbard ladders and their role in studying quantum materials.

Research reveals the effects of pressure on electron behavior in twisted bilayer WSe.

Examining the unique superconducting properties of UTe under varying conditions.

A deep look at how structure affects electron behavior in strontium ruthenate.

Study reveals complex interactions of photoelectrons in argon under laser influence.

This article examines how laser light affects Mott insulators’ charge and magnetic properties.

A new method for better electron function localization in materials.

Research reveals new pathways for topological superconductivity without magnetic fields.

New methods improve efficiency in studying periodic systems for better material insights.

Exploring the behavior of composite fermions in the fractional quantum Hall effect.

Innovative techniques improve understanding of electron behaviors and interactions in materials.

Investigating charge density waves reveals new insights into electron behavior in materials.

Study reveals how electrons behave during chemical reactions at the molecular level.

This paper examines the unique insulating behavior of the material NbCl.

Exploring charge behavior in Quantum Charge Liquids and their implications in material science.

Examining electron behaviors in materials with Van Hove points and triplet superconductivity.

Discover the unique structures and properties of kagome metals like V Sb.

La Ni O shows promise as a superconductor at high temperatures under pressure.

Scientists study waterfall patterns to understand electron behavior in superconductors.

Explore how chemical bonds form and break during reactions.

A new method improves quantum dot measurement for better qubit control.

A new multi-channel approach improves kinetic energy calculations in semiconductor materials.

Researchers leverage quantum computing to study electron interactions in materials.

Examining how twin boundaries influence critical temperature in superconductors.

New methods enhance analysis of complex molecular systems.

A look at unique electron behaviors in certain materials under different temperatures.

Researchers study the transition between two fascinating states in rhombohedral graphene multilayers.

A look at atomic orbitals and their shapes in quantum mechanics.

Exploring the Hubbard model and its significance in material behavior.

A look into CISM and its implications in chiral materials.

Learn how electrons behave in electric fields and their surprising effects.

A look into how electrons interact with impurities and form unique spin screening clouds.

Exploring the unique superconducting properties of rhombohedral tetra-layer graphene.

Exploring new methods to analyze complex materials using Density Functional Theory.

Discover how temperature affects the movement of electrons in materials.

Discover how quantum mechanics influences the behavior of solids at the atomic level.

Discover the unpredictable energy loss of excited CO molecules.

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

Scientists study fast-moving electrons to understand particle behavior and the ATOMKI anomaly.