Physics - Mesoscale and Nanoscale Physics

YbTiBi presents unique electronic properties and potential applications in advanced technologies.

Examining the effects of photons on edge and corner states within a cavity.

Research reveals interactions between superconductivity and quantum Hall states using advanced technology.

Research reveals unconventional p-wave magnetism in materials with promising technological applications.

Exploring the interaction between BICs and EPs for advancing technology.

A fresh approach to understanding energy levels in complex physics systems.

Research on EuTiBi reveals new properties in magnetic topological materials.

New methods reveal potential of topological phases for technology and research.

A look at how strain affects bilayer graphene's unique electronic features.

New techniques reduce quasiparticle poisoning, enhancing superconducting qubit performance.

This material exhibits unique properties that may transform technology.

Exploring helicity's role in particle movement and its potential technological applications.

Researching interactions between damped harmonic oscillators with Kerr nonlinearity.

New method improves vortex phase mask design efficiency using machine learning.

Research reveals spontaneous voltage peaks in niobium channels under specific conditions.

This study investigates exciton behavior in semiconductor nanocrystals within optical cavities.

This study examines how surface anisotropy influences spin wave behavior in planar square dots.

This study investigates the optical behaviors of magnetic and non-magnetic layered materials.

Research explores micropillars for better light efficiency from quantum dots.

This study reveals how disorder affects spins at metal-insulator boundaries.

Exploring the impact of laser annealing on silicon-germanium materials for electronics.

Explore the unique properties and applications of Josephson junctions in technology.

Uncovering the unique properties and stability of magic angles in twisted bilayer graphene.

MATBG reveals unique electronic properties and superconductivity potential.

A look at artificial spin ices and their role in magnetism research.

Examining the coexistence of solid and liquid states in two-dimensional electron systems.

Research shows how surface changes affect magnetization in small materials.

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.