Physics - Mesoscale and Nanoscale Physics

Research reveals how antifreeze proteins bind and are engulfed by ice.

Doped TMDs show potential for magnetic semiconductor applications in spintronics.

This article explores non-Abelian charges and the measurement of band singularities in materials.

Researchers study how surface charges affect chemical reactions in nanoparticles using advanced techniques.

This article examines nonreciprocal entanglement in cavity magnomechanics and its implications.

Exploring the unique properties and potential of twisted bilayer graphene.

Exploring how machine learning enhances the understanding of the anomalous Hall effect in non-collinear magnets.

Research on cooling magnetic domain walls could improve quantum computing efficiency.

Exploring how particles move through topological pumping in quantum systems.

Enhancements in measurement speed and accuracy for spin qubits are crucial for quantum computing.

Investigating exceptional points in open quantum systems and their implications.

A deep dive into the unique properties of higher-order topological insulators.

An overview of unique properties and potential applications of two-dimensional Weyl semimetals.

Study explores resistance in lead islands on graphene under temperature and electric fields.

Research focuses on error correction methods for quantum computing reliability.

This article details the performance of cryogen-free SPMs with minimized vibrations.

Research on skyrmions and their instabilities offers insights into future data storage solutions.

Examining the behavior of metallic nanowires on semiconducting materials.

Researchers study gold/silver nanoalloys for enhanced properties in various applications.

Exploring the significance of non-Hermitian random matrices in complex physical systems.

Research reveals new insights into light-emitting properties of OCCs in carbon nanotubes.

A look at tunneling dynamics and their implications in quantum mechanics.

New findings on exceptional points reveal intriguing behaviors and their connections to symmetry.

This article explores interactions between light and two-dimensional materials, focusing on exciton-polariton condensates.

MXenes and Janus MXenes show potential for efficient heat-to-electricity conversion.

Examining magnetic states in quantum spin chains through environmental coupling methods.

Research explores superfluid helium's unique phase transitions under controlled conditions.

This study reveals how altermagnets influence the Kondo effect and its applications.

Scientists discover boundary-induced bct iron with unique magnetic properties.

Investigating the unique behaviors of ultracold bosons and their interaction with light.

Exploring the mechanisms and significance of magnetization reversal in magnetic devices.

Examining how thin films of glass-forming materials behave on different surfaces.

Research explores how carbon nanotubes can stabilize hydrogen-bonded chains at high temperatures.

This article investigates the unique properties of bilayer phononic crystals and their applications.

This article examines how CdAs films react to different magnetic fields.

Research examines how single molecule magnets impact superconductors for future technology.

An overview of flatband systems and their unique characteristics in physics.

Researchers analyze the motion of levitated superconductors to advance quantum sensing technology.

Research highlights connections between gapless fermionic systems and topological insulators.

Research into wakefields generated by particles in carbon nanotubes could advance particle acceleration technology.