Latest Articles for Material Science

New hybrid structures enhance control over spin waves for innovative technology applications.

New models improve understanding of anharmonic oscillators' energy levels.

Research reveals complex interactions that influence superconductivity in cuprate materials.

Explore the concept of bosonic holes and their implications in quantum systems.

Explore how shear-thinning fluids behave under stress and the effects of instabilities.

New techniques improve detection of weak magnetic fields amidst noise.

Liquid scintillators are essential for detecting ionizing radiation and particles like neutrinos.

Investigating how thermal fluctuations influence fluid behavior in small systems.

This study investigates how heat moves in Mott insulators, focusing on spins and phonons.

Research explores spin-charge dynamics in doped quantum spin liquids for advanced materials.

Research reveals the formation and potential of carbon dioxide hydrates.

Researchers study quantum spin liquids and their implications for future technologies.

Research unveils the complexities of helical superconductivity and spin-orbit coupling.

Exploring the intriguing interactions of the Casimir effect in various fields.

A new approach enhances predictions for composite materials' performance in various conditions.

Research highlights the potential of micro-lattice structures to improve drone safety.

A detailed look into the science behind liquid absorption in porous materials.

Research reveals how electric and magnetic fields affect quantum materials.

A novel approach to improve electron interaction predictions in materials.

Researchers develop a method to simulate how substances move and interact.

Exploring superradiance and its implications in superconducting materials.

Exploring how hot particles impact fluid behavior and viscosity.

New insights on antiferromagnets with charge-density waves and their unique electrical properties.

Study reveals how temperature impacts HfO2's structural phases.

Research reveals how proton irradiation alters superconducting properties in YBCO thin films.

Research highlights nitrogen hydrates for efficient gas storage and transportation.

Learn how advanced modeling improves cold rolling quality and efficiency.

Research on hole spin qubits shows promise for quantum computing technology.

This article examines shear modulus and volume relaxation in high-entropy metallic glasses.

Research reveals new connections between Berry phase and quantum tunneling effects.

Insights into how quantum metrics and optical conductivity shape material behavior.

A new method accurately reconstructs strain fields in materials using neutron imaging.

Research on detonations reveals important factors influencing their symmetry and behavior.

This study focuses on the crush curves of silica in space impacts.

Examining the impact of geometric frustration on particle interactions and motion.

Researchers create Rydberg exciton arrays in cuprous oxide, promising advances in quantum devices.

Research reveals how LAFO properties affect SHNO performance and efficiency.

A look into the significance and challenges of Density Functional Theory.

Study reveals the role of spin fluctuations in the magnetocaloric effect of MnFe Si.

Automatic differentiation improves FFT methods for better material behavior analysis.