Physics - Mesoscale and Nanoscale Physics

Researchers study how viscosity affects electron flow in advanced electronic materials.

Researchers investigate crystalline symmetry's role in fractional Chern insulators and topological phases.

This article examines how stacking patterns affect the properties of nitride MXenes.

Exploring the unique properties of non-Abelian Hopf-Euler insulators in condensed matter physics.

Researchers study twisted multilayer MoTe for its unique electron properties and effects.

Research on layered materials reveals unique electronic properties and possibilities for future technologies.

RealTimeTransport offers insights into quantum transport for modern electronic systems.

Research reveals unique electronic properties of twisted TMDs combined with graphene.

Research on trions in Xenes reveals potential technology applications.

Exploring shift excitons and their impact on material behavior and applications.

A look into how mass and temperature affect particle interactions.

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

This study reveals methods to generate laser light with high topological charges using quasicrystals.

Improving quantum computing efficiency through optimized spin qubits in silicon-germanium materials.

Research on 2D magnets reveals insights into magnetic quantum impurities and their effects.

This study examines the unique electronic properties of anisotropic Dirac semimetals using a holographic model.

Investigating the integration of parafermions and spin qubits for advanced quantum computing.

Altermagnets show promise for spintronics through unique magnon behaviors and temperature effects.

Scientists use metasurfaces to efficiently control exciton behavior with light.

This article explores how vacancies affect graphene's unique properties and potential applications.

Researchers achieve long-distance polariton propagation at room temperature using perovskite metasurfaces.

Research reveals new insights into molecular junctions and their applications in electronics.

Overview of JTWPA dynamics and its implications for quantum technology.

CdSe nanoplatelets offer exciting optical properties for various applications in technology.

New methods for valleytronics using graphene and TMD materials show promise for future computing.

Research reveals superconductivity in twisted bilayer WSe2 under specific conditions.

This study explores spin behavior in Kagome lattices affected by magnetic fields.

An overview of Floquet theory’s role in analyzing periodic systems.

Research on magnetic solitons enhances technology through improved measurement techniques.

New model sheds light on how metals emit light, impacting various fields.

Examining how feedback magnetic fields change magnetization dynamics for advanced technologies.

Study of magnetic impurities reveals complex interactions in superconductors.

Void resonators expand applications in light manipulation using lossy materials.

Study reveals how graphene patterns enhance heat transfer at small scales.

Research shows how twisting layers impacts electronic properties in TMDs.

Study reveals impact of local density on Majorana states in semiconductor-superconductor devices.

Exploring the potential of time crystals in next-gen quantum devices.

New research highlights improved methods for shuttling electrons in quantum computing.

Research highlights the role of silicene in detecting food spoilage.

This article simplifies the complex world of quantum systems.