Latest Articles for Material Science

Discover how microplasma systems enhance material studies in real-time.

Exploring the essential features and testing of circulator devices in telecommunications.

Research identifies energy loss sources, improving coherence in quantum circuits.

This article discusses modern methods for minimizing energy in engineering systems.

Researching edge currents in small chiral superconductors reveals important properties.

Y Ru Ge exhibits unique superconducting behaviors and challenges conventional theories.

Exploring dipole-conserving systems and their unique properties in quantum mechanics.

Study reveals complex dynamics and unique phases in frustrated magnetic systems.

Giant emitters reveal unique behaviors in non-Hermitian environments, impacting quantum technologies.

An overview of anomalous diffusion and its significance in various fields.

MuST leverages GPU technology to enhance electronic structure calculations in solid materials.

A novel approach enhances molecular predictions by focusing on motif connections.

Research explores converting coal to valuable graphite for technology.

Research reveals unexpected heat transfer behavior between gases and solids.

A look at how materials change states in quantum circuits.

Research reveals complex dynamics of singlet fission in lycopene pigments.

Researchers develop a system for unidirectional microwave emission using chiral cavity magnonic systems.

Exploring the unique properties and superconductivity of trigonal -PtBi material.

Exploring the unique properties and applications of topological superconductors in modern technology.

A novel approach to examine strongly correlated electrons and neutrons with simpler tools.

Exploring a new method for precise excited state calculations in quantum systems.

A novel technique for studying complex particle interactions at the quantum level.

Examining how machine learning models improve predictions in materials research.

Unraveling the dynamics of granular materials and their behavior under different conditions.

A look into how sound waves affect various structures.

Scientists study how light alters the conductivity of 2-MoTe material.

A fresh model predicts granular materials' responses under high-speed impacts.

A comparison of two models for understanding viscoelastic fluid behavior.

Exploring how percolation affects flow in various systems, from water to disease spread.

An overview of terahertz radiation produced by laser interactions with materials.

Aerographite solar sails could enable rapid space travel to Mars and beyond.

Examining how delamination affects wave movement in layered structures.

Examining fission processes of superheavy nuclei, focusing on level density and entropy.

Helium-3 exhibits unique heat conduction behaviors at low temperatures, challenging traditional theories.

Exploring spin interactions and their phases in the XY model.

Study reveals interaction of electron and phonon behavior in antimony with light pulses.

This article explores the heat equation and its analysis using pseudospectra.

Examining heat conduction in 2D chains of oscillators affected by magnetic fields.

Research reveals insights into exciton behavior in two-dimensional materials under light pulses.

Research reveals benefits of non-planar blocks in enhancing stability and energy absorption.