Latest Articles for Material Science

This study reveals how the Ising model behaves under different temperature regimes.

Researchers explore unique properties of hyperbolic non-Abelian semimetals and their implications.

New insights into 4Hb-TaS reveal unique interactions between magnetism and superconductivity.

A novel algorithm improves ground-state energy estimation in quantum systems under noise.

Research explores lutetium hydride's potential for superconductivity at higher pressures.

Delta ML improves accuracy in predicting Raman spectra for various materials.

New loop-zag resonator improves sensitivity and efficiency in ESR studies.

Researchers explore new approaches to create efficient ferroelectric devices with layered materials.

Research on how granular materials behave in different gravity conditions.

Examining innovative modeling methods for unique elastomeric metamaterials.

Research reveals how physical strains affect superconductivity in CaKFe As material.

Researchers leverage machine learning to improve zeolite synthesis methods and outcomes.

Exploring how hydrogels swell around obstacles and implications for various fields.

Exploring how charge density behaves in layered metals through light and electromagnetic interactions.

TiSe displays unique phase transitions and electronic properties relevant for advanced technologies.

Innovative coupling techniques enhance communication in quantum systems using magnons and mechanical oscillators.

Research reveals methods to control electron injection in carbon nanotubes with minimal noise.

Research on EuZnP reveals unique magnetic and electrical behaviors.

This article discusses methods to manage material behavior in surface coatings.

Exploring the role of dark solitons in advancing quantum computing and information storage.

Exploring the impact of adapted poling on lithium niobate waveguides.

A method for precise temperature control in materials through flatness-based techniques.

Examining how tunable parameters affect particle mobility in quasiperiodic lattice systems.

This article examines the energy levels and behavior of quasi-periodic spin chains.

Exploring kink trains and their interactions in various materials.

Research into molybdenum-hydrogen compounds reveals possibilities for high-temperature superconductors.

Learn how superconductors respond to magnetic fields and their significance.

Examining the roles of stability and energy in semilinear elliptic problems.

A look into the structural and magnetic behaviors of (RbCl)CuPO4 under temperature changes.

This article explores U(1) Dirac spin liquids and the effects of lattice distortions on stability.

Examining how particles gain mass without breaking symmetries.

SEAQT framework enhances understanding of electron and phonon transport in materials.

Examining how interactions influence changes in non-equilibrium systems across various fields.

Research highlights how effective mass changes with coupling in polarons.

Explore the significance and applications of multivariate functional data analysis.

Machine learning improves material prediction accuracy and efficiency.

This article examines how disorder affects material strength and failure mechanisms.

Recent advances improve the measurement of light's electric fields and their properties.

Discover how bipolar thermoelectric devices convert heat into electricity efficiently.

A study on stick-slip dynamics in granular materials with varied grain shapes.