Latest Articles for Material Science

Exploring how external forces affect the behavior of harmonic oscillators.

Study reveals how bacteria adhere differently to surfaces based on stiffness.

Researchers enhance quantum computing techniques to simulate molecules more accurately.

This research examines how heat affects the structure of foam over time.

Discover the fascinating behavior of hydrogels under temperature changes.

Explore how symmetry shapes the behavior of physical systems.

New imaging technology reveals how nanoscale materials behave under heat.

Research reveals insights into how hedgehog defects affect glass behavior under stress.

Study reveals unique magnetic features of kagome antiferromagnets, focusing on the 1/9 magnetization plateau.

This study delves into the unique electronic features of Ta NiSe at low temperatures.

Study of gold and silver atomic contacts under magnetic influence.

A look into the fascinating world of quantum spin liquids and their unique properties.

An overview of how crystals form and their significance in science.

New GaAs resonators show promise for optical applications in telecommunications and sensing.

Research on the control and behavior of ion spins using advanced techniques.

A look into sensitivity testing and its impact on material safety.

New findings on quantum oscillations reveal insights into electronic materials and quasiparticle behavior.

Researchers enhance control over neutral atoms using Rydberg atoms in lattice structures.

This study reveals how shapes transform into simpler forms while preserving volume.

Research shows how disorder affects topological phases in mechanical systems.

Exploring the role of organic polariton systems in optical computing technologies.

This article discusses the complexities and advancements in modeling viscoelastic materials.

New descriptors enhance predictions of chemical compounds in drug discovery and materials science.

Exploring the unique properties of twisted-bilayer lattices in Bose-Einstein condensates.

This study examines how concave particle shapes influence granular flow in rotating drums.

TlMnO exhibits distinctive electronic and structural features due to orbital ordering and distortions.

Researchers use TD-SCHA to better simulate quantum behaviors in materials, focusing on strontium titanate.

Examining the SSH model reveals insights into non-Hermitian systems and their applications.

Examining the Petz map's role in quantum information recovery across various phases.

Analyzing VQE performance on the Hubbard model reveals insights into quantum simulations.

Study explores how sodium affects thermal conductivity in sodium silicate glasses.

Research reveals behavior of electrical and thermal properties in 2D topological materials.

Exploring the role and importance of SNSPDs in technology and science.

Exploring the complexities of many-body systems and their dynamics.

A method that improves finite element analysis using arbitrary meshes.

A look into two unique states of matter and their implications.

Researchers study the charge behavior of CuPc on NaCl layers using STM.

Ba K BiO reveals unique properties critical for understanding superconductivity.

Research highlights the effects of Higgs mode and impurities on superconductors.

Exploring how fractional calculus enhances the modeling of physical phenomena.