Latest Articles for Materials Science

Study reveals exciting behaviors in the excitonic insulator TaNiSe.

Exploring the effects of scarring and antiscarring in quantum systems.

Combining photometric stereo with SHeM enhances 3D imaging of microscopic surfaces.

Study highlights electronic structure and interface quality in advanced layered materials.

New methods improve efficiency in simulating complex materials.

A look into the unique properties of higher-order topological superconductors and their implications for quantum computing.

Exploring the unique properties and applications of flat bands in light manipulation.

Scientists develop a technique to measure dynamic Young's modulus in quantum materials.

A study on how altermagnets and superconductors interact to improve electronics.

A look at Hubbard ladders and their role in studying quantum materials.

Exploring the link between magnetization and edge currents in materials.

Innovative techniques reveal new insights into molecular shapes and behaviors.

This study explores how symmetries influence many-body systems of fermions.

Graphene's unique electronic states offer new insights into material science and electronics.

A study on how carboxylate ligands affect the properties of lead sulfide nanocrystals.

Researchers synthesized new materials with unique structures and magnetic properties using hydroflux.

Exploring the unique features of periodically driven non-Hermitian systems.

An overview of chiral edges and their relevance in quantum mechanics.

Study reveals unique magnetic behaviors of SrMgIrO, SrZnIrO, and SrCdIrO.

Research highlights YAlO's behavior across various light frequencies for future tech applications.

Examining how object shapes affect heat flow efficiency.

Examining how chaotic electron paths affect metal conductivity under magnetic fields.

Exploring the effects of mechanical stress on fluids in tiny materials.

Exploring how external fields affect electron behavior in quantum dots.

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.