Latest Articles for Material Science

Exploring the complexities of spin glasses and their energy landscape.

A look into quantum oscillations and their impact on metal properties.

This research explores biased cooling methods for improved control in quantum circuits.

A data-driven approach to understanding lithium plating in lithium-ion batteries.

Exploring the link between Toda lattice dynamics and minimal surfaces in mathematics.

Using neural networks to improve the design of 3D-printed shells for better performance.

New light beams could enhance communication systems and material manipulation.

This study examines how impurities affect electron behavior in graphene with magnetic fields.

Innovative techniques improve efficiency in studying hyperelastic materials and their applications.

Understanding simulations is key to improving electric machines and transformers.

Research reveals unique superconducting properties of twisted bilayer WSe₂, challenging existing theories.

A look into the complex behaviors of geometrically frustrated magnets.

Study of Duffing resonators reveals intricate behaviors influenced by varying forces.

Examining the effects of order parameter changes in the Kitaev model on correlation functions.

Research into specific heat reveals insights about superconducting cuprates.

A look at how Dirac bilinears influence material behaviors and functionalities.

Study reveals pore collapse dynamics in PMMA during shock impact.

Researchers study nitrogen- and silicon-vacancy centers in diamonds for advanced technology.

Exploring nonlocal moments and their effects on twisted bilayer graphene's electronic properties.

A study on how cold atoms behave when interacting with elastic membranes.

Explore the interactions of local spins and electrons in magnetic systems.

Kondo lattices blend local spins with moving electrons, shaping unique magnetic properties.

New nanorobotic actuators leverage 2D materials for precise movement and functions.

An overview of tunneling magnetoresistance in magnetic junctions and its technological implications.

A look at how scientists study electron interactions using mathematical methods.

New methods refine constitutive models for soft materials using statistical techniques.

New nano-antennas utilize unique materials for effective and compact radio wave transmission.

A look into the unique properties of van der Waals materials.

This study examines heat transfer between materials through phonons and their interactions.

Research on InAs/GaSb nanowires reveals new possibilities in electronics.

Research reveals varying magnetic behaviors in monolayer CrTe and Cr Te.

Study reveals how ion interactions affect conductivity in concentrated electrolyte solutions.

A study on NdKNaNbO reveals complex magnetic behaviors and interactions.

Research explores complex magnetic and electric interactions in Mott insulators.

New platform improves soft robot control and performance using machine learning.

Researchers study iron oxide's structure changes under high pressure and temperature.

Research on higher-order Dirac and Weyl semimetals reveals new properties.

A look at the latest methods in free energy calculations for improved chemical insights.

Study reveals how oxygen groups on graphene enhance heat transfer with water.

CDSSL improves the prediction of material properties through data-driven techniques.