Physics - Mesoscale and Nanoscale Physics

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

An overview of superconductivity mechanisms and electron interactions in various materials.

Exploring unique properties of magnetic Weyl-Kondo semimetals influenced by electron interactions.

This article compares Kubo and QFT models for graphene's electrical conductivity.

A new method enhances MIM accessibility and accuracy with silicon cantilever probes.

Researchers create artificial cells to study action potentials and neural behavior.

Twisted bilayer graphene reveals unique electronic properties under pressure and twist angles.

Nodal line semimetals show promise in improving thermoelectric energy conversion.

Researchers explore unique states of matter in graphene and their potential applications.

Research advances the study of Andreev bound states for future quantum technologies.

Examining nonlinear behaviors in three-dimensional materials under magnetic influence.

Research explores spin-orbit interactions and their impact on the Josephson effect.

Examining how fermions behave under magnetic influences and transitions between phases.

Research explores how excitons in nanocrystals affect light emission and brightness.

Exploring unique electronic properties at the BiSe and EuS interface.

A look into the distinct behaviors of Anomalous Hall Crystals in rhombohedral multilayer graphene.

Research sheds light on how material interfaces affect electronic device performance.

New NbN probes improve thermal measurement accuracy at nanoscale.

EuInAs shows promise for unique electronic properties and applications.

Examining noise sources and effects in semiconductor devices for improved performance.

Study reveals unique phonon behaviors at electronic boundaries in materials.

Exploring how time delays impact interactions between light and atoms in waveguide quantum electrodynamics.

Exploring unique properties of minimal fractional topological insulators and their potential applications.

Exploring the role of quantum geometry in material properties and behaviors.

Discover the unique properties and dynamics of polariton condensates in modern physics.

Exploring the unique properties of coexistence topological semimetals for thermoelectric applications.

Recent research highlights the intriguing behavior of electronic states in pentalayer graphene.

Research explores flux noise in SQUIDs and its implications for quantum computing.

Discover how geometric phase influences wave behavior in new elastic materials.

Researchers study spin dynamics in quantum dot spin valves for improved electronics.

New insights into bilayer graphene's electronic and optical properties reveal exciting applications.

Phosphorene nanoribbons show promise in electronic applications due to unique properties.

Exploring how low-energy electrons interact with light at the atomic level.

Examining the role of non-Abelian anyons in future quantum technologies.

Exploring the effects of magnetization on Weyl semimetals and their electronic properties.

Exploring the role of reaction-diffusion models in various fields.

Using machine learning to model and predict spins in magnetic materials.

Research highlights the dynamic behavior of edge modes in fractional quantum Hall fluids.

A new approach improves understanding of quantum systems and their environmental interactions.

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