Latest Articles for Material Science

A fresh look at light and matter interactions in quantum physics.

Research reveals new NbS - 2D compounds with unique properties for future tech applications.

Spin chirality reveals new insights into material behaviors and electron interactions.

This article explores the superconducting phase interference effect in cuprate superconductors.

New methods in lattice design improve strength while minimizing weight.

A study on fluid dynamics in elastic porous materials with real-world applications.

Bi Rh Se demonstrates unique properties with charge density waves and superconductivity.

Researchers enhance hourglass structures for reliable single-photon generation.

Examining unique properties and behaviors of Weyl semimetals in magnetic fields.

Exploring the significance and applications of magnetic van der Waals materials.

Examining how active particles change droplet shapes and behaviors.

Twisted bilayer bismuthene shows unique properties due to its layered structure.

Machine learning techniques are reshaping how we model material behavior under stress.

This study reveals how silica impacts the synthesis and properties of Co2Te3O8.

Exploring the unique properties and interactions of birefringent Dirac fermions.

A new technique enhances bonding in soft robotics, addressing material challenges.

This article examines how large molecules form complexes and change over time.

Research explores nonlinear optical effects in Weyl semimetals influenced by magnetic fields.

Research into Bose gases reveals complex interactions under different conditions.

Enhancing ToF-SIMS methods to accurately analyze semiconductor structures and improve electronic devices.

A look into vortex dynamics and their implications in Bose-Einstein condensates.

Examining disorder's impact on mechanical quasicrystals and their unique topological properties.

Research on holmium compounds reveals potential for energy-efficient cooling applications.

Exploring the complex behaviors of materials with misaligned building blocks.

Examining how atomic arrangements affect phonons and heat storage in materials.

This article explores how defects affect quantum systems using a holographic approach.

New methods improve modeling of quantum systems and their environmental interactions.

This article discusses two-level systems and their impact on qubit coherence in quantum computing.

Exploring higher-derivative terms in the sine-Gordon model reveals new phase behaviors.

Researchers combine NV centers and waveguides to improve magnetic field detection.

Research reveals significant changes in shift current as materials approach a gapless state.

New MOKE spectrometer enhances study of magnetic and electronic materials.

Study reveals molecular assembly effects on diamond's electrical properties.

Research on light absorption improves efficiency in solar cells and displays.

This article examines the role of helical fibers in changing light polarization.

Research reveals unique magnetic and thermal properties of YbFe P near quantum critical point.

Advanced techniques for capturing atomic-level images enhance material understanding.

Explore how the Andrade model explains material behavior under stress.

A novel approach to model wave response in elastic-plastic metamaterials.

Researchers reveal unique properties of a specific high-entropy spinel oxide.