Physics - Mesoscale and Nanoscale Physics

New methods for detecting skyrmions may enhance future electronics and computing.

Research provides a method for better control of single electrons in quantum dots.

Research highlights interactions between MoSe2 and CrSBr for advanced technology applications.

Research on skyrmions in SAFs shows promise for future tech applications.

Exploring the unique properties of electron-hole fluids in two-dimensional materials.

Research explores polaritons and their unique properties in specially designed cavities.

A new model sheds light on the Moore-Read state and its potential uses in quantum computing.

Exploring the asymmetric Ising model through parametric oscillators reveals complex behaviors.

Researchers unveil unique current behavior in bilayer superconductors above critical temperatures.

Research reveals the behavior of electron bubbles in graphene's unique solid states.

Niobium halides exhibit unique properties promising for advanced electronics.

This article explores how quantum dots behave in various conditions and their practical uses.

KZnBi exhibits unique properties as a Dirac semimetal and nonsymmorphic insulator.

Exploring the unique properties of Weyl semimetals through the study of ReO.

Research shows how antenna shapes affect spin wave behavior and technology potential.

Examining how heat transfers between closely spaced metal surfaces.

Weyl points reveal unique electronic properties in certain materials.

Exploring the unique properties and potential of magic-angle twisted bilayer graphene.

Research shows how easy-axis anisotropy affects magnon condensation in YIG thin films.

Researchers propose a method to prepare massive objects in superposition states.

2D materials exhibit unique properties with numerous applications in electronics and quantum computing.

Research reveals complex magnetic behaviors in rare-earth monopnictides.

Research highlights the potential of graphene nanostructures for improved heat flow control.

A study of electron behavior in multi-path Aharonov-Bohm interferometers made from graphene.

Iodinenes offer unique properties for future technological advancements.

This article explores how Dzyaloshinskii-Moriya Interaction affects magnetic domain walls in nanowires.

Study reveals how cavity interactions affect Majorana states in topological superconductors.

Research reveals how twisted layers alter electronic properties and enable fractional quantum effects.

A look into the nonlinear Hall effect and its implications for materials science.

Research focuses on strong coupling between photons and mechanical systems for future technologies.

Research on bismuthene reveals how magnetic impurities influence electrical properties.

Exploring the special properties of twisted bilayer graphene and its magic angles.

Exploring the complex behaviors of graphene under strong magnetic fields.

Investigating the unique properties of excitonic insulators and their potential applications.

A look into the unique properties and applications of superconductors in technology.

This article presents an efficient way to calculate how materials absorb light.

Research examines how laser heating affects particle interactions in fluid mixtures.

Exploring unique behaviors of non-Hermitian Dirac materials under light.

Researchers aim to manage electron behavior in graphene for practical uses.

Examining how giant fullerenes can enhance high-order harmonic generation.