Latest Articles for Materials Science

Study reveals MgB's potential for nonvolatile heat flow control.

Research focuses on spin decoherence in VOPc@GNR systems for quantum computing advancements.

Study of active systems reveals complex behaviors in particles and biological structures.

This article discusses the effects of nanoparticles on liquid crystal properties.

Study reveals methods to improve YIG film crystallization for better tech applications.

Discover the quirky behaviors of non-Hermitian systems and their impacts.

Examining collective behaviors of charged oscillators in a three-dimensional lattice.

Examining how heat transfer models impact laser heating efficiency.

Investigating how superconductors change phases in magnetic fields reveals key principles.

This article examines crack growth in aluminum, focusing on AA2024-T351.

Research highlights progress in optomechanical systems using soft-clamped membranes for enhanced applications.

Research on quantum spin liquids reveals new interactions with electric fields.

A fresh approach simplifies the calculation of Lee-Yang zeros in quantum physics.

This article explores how hydration impacts snail mucus and its potential applications.

New insights on the Macroscopic Zeno Effect reveal innovative light control methods.

This study examines how strain influences the properties of monolayer ZnO.

OF-DFT offers new insights into complex nuclear systems beyond traditional methods.

New materials and machine learning enhance solar cell efficiency and safety.

Research reveals the dynamics between many-body localization and ergodic bubbles.

LK-99 could change the future of superconductivity if proven effective.

Research reveals unique behaviors in mixtures of liquid crystals, expanding their potential applications.

Study reveals impact of cross-phase modulation on 2D spectroscopy outcomes.

Researchers aim to achieve superconductivity at high temperatures through Mott localization.

Lattice DFT enhances understanding of complex electronic systems and interactions.

Examining how magnetization influences superconductivity in unique materials.

New techniques improve energy transfer study in antiferromagnetic materials.

Research leverages machine learning to predict superconductors' critical temperatures efficiently.

Exploring the unique characteristics and applications of Exceptional Bound states in quantum systems.

Rhombohedral trilayer graphene exhibits unique metallic ferromagnetism influenced by orbital moments.

New microwave amplifiers enable improved signal processing for quantum technologies at elevated temperatures.

Study of circular motion in small particles reveals important scientific insights.

This article examines how missing atoms influence magnetism in Ising chains.

Exploring how unique materials respond to light and their superconducting properties.

A look at efficient disk packing methods and their impact on material strength.

Exploring how disorder affects graphene's electronic properties and quasiparticle dynamics.

This study examines the unique properties and behaviors of metallic and tellurite glasses.

Research on electric bubbles reveals new applications in computing and energy technologies.

Scientists distinguish helium and electron recoils in liquid xenon for dark matter detection.

Exploring spin currents in NFL metals using ferromagnetic insulators.

Explore the effects of disorder and temperature on bilayer graphene's properties.