Latest Articles for Materials Science

Research reveals the unique electronic properties of twisted bilayer graphene.

Scientists study anyon behavior using a graphene-based interferometer.

A new method enhances predictions for heat transfer in materials using mixed modeling techniques.

Research highlights potential of RuPSiO in quantum magnetism.

Examining unique properties and behaviors of spiral spin liquids in physics.

Examining how static and dynamic environments affect molecular properties.

Exploring the role of interfaces in quantum field theories and their implications.

A look into how electron interactions affect material properties and local magnetic moments.

An overview of Schrodinger symmetry and its significance in various fields of physics.

Study reveals behaviors of Bose-Einstein condensates in a double well potential.

Study reveals behavior of disclinations during reconnection events in liquid crystals.

Research reveals new insights into Majorana zero modes in nanowires.

Examining the unique movements of active particles in confined spaces.

Research highlights shape changes in colloidal polycrystals when stressed.

MICROSIM software simplifies materials science simulations for researchers and engineers.

Researchers are studying antiferromagnets to improve electronic devices.

Exploring the magnetic properties of MnPSSe for future spintronic applications.

This article discusses methods for calculating high temperature series expansions for magnetic materials.

Research on microrobots focuses on memory and feedback to improve performance in various tasks.

MXenes show promise as photocatalysts for efficient hydrogen production using sunlight.

This research uses TDA to study soft gel structures and their responses to stress.

Research on spatiotemporal quenches enhances quantum state preparation for future technologies.

An overview of how electron-phonon coupling affects material properties.

Exploring the unique properties and applications of nonunitary superconductors.

Researchers use GPUs to speed up quantum particle simulations effectively.

New model enhances understanding of cobalt properties in catalysis.

Researchers enhance material properties through precise light control of phases.

A look at flat-virtual knots and their role in knot theory.

Research reveals potential for improved light conversion in carbon nanotubes.

This article explores the latest developments in superconductivity research and mixed pairing states.

Examining the magnetic properties of DPPH using waveguide quantum electrodynamics.

A look at how light interacts with small particles in liquids.

Research on vortex strings reveals insights into symmetry breaking and their influence on physical states.

Research reveals new insights into the stability of tungsten nanoparticles in various environments.

New techniques for faster and flexible molecular structure generation are emerging.

New methods identify and measure spin flow in materials like tungsten and platinum.

Exploring how quantum dots reveal Nagaoka ferromagnetism in materials.

A study on predicting composite material behavior using advanced neural networks.

A new approach combines machine learning and physics for better material analysis.

A look into quantum effects on material properties in engineering.