Latest Articles for Materials Science

This article explores how plasmas interact with semiconductor materials, focusing on electron behavior.

New insights into the behavior of SrTi₁-xVxO₃ through doping and electron interactions.

Using neural networks to enhance contact mechanics analysis and prediction.

Hamiltonian learning advances quantum systems understanding, focusing on steady states and degeneracy.

Research highlights phosphorus donors in silicon to enhance quantum operations.

PolyGET merges speed and accuracy in polymer simulations, enhancing scientific research.

Researchers study how electron beams interact with spherical nanoparticles for optical applications.

Research reveals new methods to measure heat transfer in tungsten at high temperatures.

Research reveals new spin-to-charge conversion methods in graphene and MoTe at low temperatures.

Explore the unique interactions of chiral structures with light and magnetism.

A look into path integrals and their impact on understanding complex systems.

Research reveals exciting properties of bulk alternating twisted graphite.

New methods improve heat equation solutions for irregular boundaries and interfaces.

Introducing a new method for accurate simulations of nematic liquid crystals.

Researchers explore ferrovalley materials for future electronic advancements.

YbTiBi presents unique electronic properties and potential applications in advanced technologies.

A new method improves predictions of material strength under stress.

Examining the effects of photons on edge and corner states within a cavity.

Research reveals interactions between superconductivity and quantum Hall states using advanced technology.

Research reveals unconventional p-wave magnetism in materials with promising technological applications.

New findings reveal potential uses in technology and materials science.

Exploring quasiperiodic functions and their unique level lines in mathematical physics.

Research advances in neutron interferometry enhance material analysis at small scales.

Research reveals how particles organize themselves using vibrational forces in fluids.

Research on EuTiBi reveals new properties in magnetic topological materials.

Learn how to enhance mixing processes in advanced lattice structures.

FTJs offer a new way to store information efficiently without constant power.

A look at how strain affects bilayer graphene's unique electronic features.

Learn how recycling DNA components can benefit science and reduce waste.

Groups of emitters could transform technology through enhanced light control.

Exploring the role of response functions in quantum physics and their practical applications.

Exploring how plastic crystals can aid in cooling and heating technologies.

Exploring recent advancements in topological phases and their implications.

Research reveals thulium's potential for precise light emission in quantum technologies.

New algorithms improve efficiency in finding materials for various industries.

Researchers investigate degradation in solar cells and the role of hydrogen dynamics.

Research focuses on the magnetic and electrical properties of Ce Bi Au material.

This material exhibits unique properties that may transform technology.

Research reveals new insights into elastic bound modes in engineered beams.

New techniques enhance atomic simulations for better material predictions.