Latest Articles for Material Science

Discover how magnetic impurities interact in superconductors, changing their behavior.

Explore how natural patterns form through Turing instability and reaction-diffusion systems.

Discover the SSH model's role in zero energy states and quantum computing.

Discover how sound waves can lift objects without touch.

Discover how spontaneous symmetry breaking occurs in small quantum systems.

Explore how layer structures impact heat movement in materials.

Dive into the fascinating behaviors and energy dynamics of active matter systems.

Discover how droplets react to vibrations and their important applications.

Discover the fascinating changes materials undergo during phase transitions.

The JUMP method enhances molecular simulations, making them faster and more accurate.

Scientists reveal new insights into phases of matter using categorical symmetries.

Explore how solid objects interact through friction and contact mechanics.

Discover the unique behaviors and applications of non-Newtonian fluids.

Quantum dots are small structures that promise major advancements in technology.

Discover how Majorana zero modes could change quantum technology for the better.

Lasers are changing the game in particle acceleration technology.

Uncover the unique properties and mysteries of Sr RuO.

Discover the potential of topological excitonic insulators in technology and materials science.

Explore the fascinating behaviors of electrons in magnetic fields.

A look into how particles interact in a vibrofluidised bed.

A groundbreaking system improves detection of electron-positron annihilation events.

A groundbreaking insight into new states of matter and their behavior.

Research reveals new ways to enhance light emission in quantum technology.

A Python package for analyzing the flow of complex fluids.

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.