Latest Articles for Materials Science

This study investigates how tiny particles behave in unique liquid crystal environments.

Study reveals how imperfections affect resonator behavior.

Soft snake robots are evolving to navigate obstacles more effectively.

Scientists use pair photoemission to analyze electron behavior in materials.

Exploring the unique behaviors of heavy fermion compounds with Cerium and Europium ions.

Topological insulators feature intriguing properties that could transform electronics and quantum computing.

Exploring the role of nonlinearities in wave behavior through orthogonal polynomials.

Research reveals unique behaviors in non-Hermitian open quantum systems.

Examining two methods for simulating potential energy in quantum systems.

Research reveals methods to enhance quantum memory performance through phonons.

New insights into the Kitaev spin liquid model reveal intriguing properties of anyons.

Examining how magnetic impurities alter superconducting properties and their implications.

This study examines factors affecting the assembly behaviors of building blocks.

Research proposes Xiometer for improved coherence length measurements in superconductors.

Study reveals water's role in electric double layers with organic solvents.

FeBiTe shows promise for advanced technologies in materials science and quantum computing.

Researchers propose a method to measure electron spin using sound and light in superfluid helium.

Exploring machine learning's role in analyzing topological properties of photonic lattices.

Researchers study Rydberg atoms in neon to enhance sensing technologies.

LK-99 shows promise in superconductivity with unique electronic properties.

A look into how magnetic materials affect superconductivity and its applications.

Exploring how Beltrami surfaces influence electron movement and energy states.

This article evaluates the potential of LK-99 as a room-temperature superconductor.

A look into the unique properties of layered magnets and their implications.

Research reveals how circularly polarized light impacts electron dynamics in materials.

Research reveals materials that can absorb nearly all incoming light with unique properties.

Nanogap antennas harness light for applications in quantum technology and medical diagnostics.

Learn how barocaloric materials can transform cooling technology through entropy changes.

A study on wave propagation in dispersive materials for engineering applications.

New techniques allow for precise control of thermal emission using graphene.

Study reveals Seebeck effect variations in black phosphorus as it transitions under pressure.

Explore the unique patterns and properties of Ammann-Beenker tiling.

Examining how electron states impact magnetic textures and future technology applications.

Recent research reveals novel properties of magnon-polaron states in two-dimensional materials.

Research highlights the impact of laser imperfections on high-order harmonic generation.

New SpinFET concept utilizes Weyl semimetals for efficient electronic devices.

Exploring hyperelastic bodies and their behavior under gravity.

Exploring how spheres fit together in space without gaps.

Research reveals new methods to control excitons using electric fields in two-dimensional materials.

Antimonide phosphide antiperovskites could enhance solar energy efficiency and performance.