Latest Articles for Materials Science

New imaging technique boosts detail in microscopic imaging.

Researchers control properties of VTe using ultrafast laser techniques.

Scientists investigate unique behaviors of discrete time crystals and their implications for quantum systems.

Study reveals new superconducting phase influenced by magnetic fields in quantum materials.

Researchers propose a novel approach for accurate permittivity measurements using s-SNOM technology.

This research explores how structural arrangement impacts superconducting properties of TiO thin films.

Research reveals the unique behaviors of dusty plasma influenced by magnetic fields.

Study shows how pressure changes properties of Yb-based approximants.

Exploring how magnetic materials influence non-magnetic layers, particularly graphene.

Study reveals how ferroelectric polarization affects exciton lifetimes and binding energies.

Researchers study how robotic particles can form micelles through controlled movement.

The study of magnetic materials enhances data storage efficiency and performance.

A guide on the transitions of energy levels in quantum systems.

A look into how resonator arrays function and their applications.

Research sheds light on the behavior of quasiholes and quasiparticles in small lattices.

Explore the fascinating world of topological insulators and their electronic behaviors.

This article discusses how moving particles affect the failure of glasses under stress.

Examining the potential of carbon vacancies for quantum technologies.

Researchers utilize geometric diabatic control to enhance tunneling in quantum systems.

Using reinforcement learning to enhance understanding of rare chemical reactions.

Research focuses on triplet point defects in 2D materials for advanced technologies.

This article discusses magnetic domain walls and their applications in technology.

A closer look at the internal structures of solvent-borne adhesives and their impact.

A new method improves prediction of phase changes in materials using unsupervised machine learning.

A look at Density Functional Theory and its applications in various fields.

Examining how magnetic charges interact in various materials and their technological implications.

A deep dive into the shapes and properties of soap bubbles and their implications.

Examining how to steer wave systems effectively through controllability techniques.

Research reveals intriguing states of matter influenced by periodic forces.

Research into copper oxides reveals insights about quasiparticles in magnetic fields.

Explore the unique attributes and uses of niobium nitride in technology.

An exploration of how dust clusters behave in plasma environments.

A look into phase separation in materials using the Cahn-Hilliard equation.

Exploring how disturbances affect the directed spherical model in physics.

New methods improve understanding of electron behavior in complex materials.

Explore how chiral phase transitions affect material behavior and potential technology applications.

Examining how colloidal particles move in curved environments shapes materials and biological processes.

New model improves predictions of silicon carbide behavior under radiation exposure.

Hafnia shows promise in electronics due to its unique ferroelectric properties.

Insights into how systems react to changes and disturbances.