Latest Articles for Material Science

Cleaning methods for superconducting devices can cause unexpected problems.

Discover how curves change over time through unique flows.

Discover how the electrocaloric effect could change cooling technology.

Weyl semimetals reveal unique electronic properties with exciting future potential.

Explore the intriguing behavior of two-state systems influenced by randomness and order.

Discover how topological insulators could transform technology through unique edge modes.

Discover how the Epstein zeta function aids research in physics and material science.

HfO reveals unique properties and potential in advanced technologies.

A breakthrough in quantum thermometry using Kerr nonlinear resonators enhances temperature accuracy.

Discover how universal MLIPs improve material property predictions.

Learn how charged particles shape material interactions and future applications.

Explore the lively interaction of surface waves and surfactants in liquids.

Discover the potential of magnetic Weyl semimetals in electronics and quantum computing.

Discover the unique properties of -ET-CN and its phase changes.

Dive into the fascinating interactions at the atomic level with quantum friction.

Research reveals softness of lunar olivine impacts future space missions.

Graphene nanoribbons show promise for advanced gas sensors in environmental monitoring.

Discover the latest findings on high-temperature superconductors and their applications.

Learn how scientists predict material hardness and its significance in engineering.

YbBr3 reveals complex magnetic behaviors through quantum mechanics.

Carbon defects in hexagonal boron nitride could spark a tech revolution.

Explore the unique behaviors of exceptional points in energy systems.

Researchers reveal new behaviors of Tonks-Girardeau bosons under periodic driving forces.

Discover the fascinating world of anyonic chains and their implications in quantum science.

Explore how photons interact with materials in high-energy physics.

Learn how cracks grow in materials and their impact on engineering.

New phase correction method boosts terahertz spectroscopy capabilities.

Discover how hybrid solid-porous structures change engineering with strength and lightness.

Examining how defects shape our understanding of particle physics.

Explore how metastable states affect chemical reactions and real-world processes.

Discover the role of elastic constants in material science and engineering.

Discover how chiral molecules influence electron behavior and technology.

PyAtoms offers a new way to visualize atomic materials simply and effectively.

Explore the complex behavior of superconductors and their intriguing fluctuations.

Dive into the fascinating world of graphene and its quantum behaviors.

Exploring the interaction between hydrogen and structural materials to ensure safety.

Explore how Density Functional Theory helps scientists study atomic interactions.

A look into spin polarization and its significance in particle physics.

Scientists explore complex interactions between lasers and electrons, revealing intriguing patterns.

Investigating the complex interactions between light and electrons in advanced systems.