Latest Articles for Material Science

Researchers aim to better understand strange metals and their unique properties.

This study examines how micrometer-sized particles stick to surfaces in hydrogen plasma.

A new approach to creating smaller, more efficient space-time systems.

Research improves understanding of polaritons for better light and electronic device performance.

Investigating programmable photonics for studying topological systems and light behavior.

Research reveals new ways to control magnetization in advanced materials.

A new method improves fluid interaction modeling in various applications.

Research reveals complex electronic properties in CsTiBi, enhancing our knowledge of quantum oscillations.

Machine learning enhances material simulations, combining experimental and computational data.

DeePTB uses deep learning for faster and accurate material property simulations.

A look into autoionization and its impact on molecular behavior.

A look at how Cosserat rod theory informs engineering and biomechanics.

A study on SSH chains and their coupling with two-level emitters reveals unique quantum states.

Research reveals key properties of nickel superconductors under pressure and temperature changes.

New metrics aim to enhance the evaluation of crystal structure prediction techniques.

Examining magnetic behaviors in doped Mott insulators reveals insights into superconductivity.

Research on QPCs reveals insights into electron behavior and conductance plateaus.

Research reveals how Fibonacci structures influence superconducting properties through disorder.

Trotter24 improves quantum simulations with adaptive time step selection and effective error control.

Research on edge states and shot noise reveals insights into quantum behaviors.

Research uncovers how ultrathin films interact through the Casimir effect.

New imaging method offers high-quality results without traditional infrared equipment.

Exploring the impact of Berry curvature on molecular behavior in magnetic fields.

New material offers insights into quantum behaviors and phases.

Exploring unique magnetic properties of triangular lattice antiferromagnets through key compounds.

Innovative methods to enhance the accuracy of X-ray spectrum measurements.

Learn how quantum information diodes manage quantum data flow using magnons.

Learn how phononic crystals manage sound frequencies for various applications.

Explore the transition between dripping and jetting in coaxial flow systems.

Examining how liquid threads break down into droplets and its implications.

Research reveals new ways to adjust and study moiré crystals.

Researchers present a method to improve fermionic calculations in quantum simulations.

Exploring how waves behave in materials leads to new technologies.

Researchers propose a new Hall effect related to displacement currents in advanced materials.

Understanding materials that deform differently depending on the direction of force.

New method connects optical fibers to chips for low-temperature applications.

Research reveals key aspects of exciton condensation in bilayer systems.

Conditional Wasserstein GANs address data scarcity in spectral applications across scientific fields.

Investigating how strain affects nematic order and spin excitations in superconductors.

This study examines the behavior of glassy materials when cooled and their particle interactions.