Latest Articles for Material Science

A look into how particles merge and form larger clusters in various fields.

Researchers uncover unique properties of twisted MoTe and its quantum states.

A new method enhances precision in measuring gel deformation for robotic sensors.

Investigating how pressure changes electrical properties in BEDT-TTF materials.

Researchers reveal new phases in quantum Hall systems using moiré TMD bilayers.

An investigation into how soft balls bounce in thick liquids and their implications.

A machine learning model improves molecular property predictions with efficiency.

A look at BaCo(AsO) and its quantum spin liquid properties.

Exploring the unique behaviors of self-propelled particles in various states.

Exploring superconductivity in twisted trilayer graphene and its unique properties.

New methods improve neutron diffraction studies of magnetic materials at atomic levels.

This article examines how electron interactions affect Landau diamagnetic susceptibility under various conditions.

Study reveals how sound travels through fluids with bubbles.

Research reveals how controlled randomness impacts wave dynamics in the FPUT lattice.

A new framework simplifies the analysis of superconducting quantum circuits.

Research measures electric fields in 6H-SiC using light and the Pockels effect.

Research on how magnetic fields affect droplets and their potential applications.

This study examines Tensor Basis Neural Networks for modeling material behavior under stress.

Exploring equations that explain material properties and their changes.

Discover the significant impact of hybrid nanocavities in photonics and advanced technology.

New methods in quantum many-body physics show promise in improving particle interaction studies.

This article presents a method for simulating quantum systems in large environments.

Discover the unique properties and potential applications of Weyl-Kondo semimetals.

An overview of Taylor columns and their role in fluid behavior.

Discover how multi-mode cavities improve quantum information processing.

Research delves into complex flows created by polymers and their unique behaviors.

Exploring the potential of 3R-MoS2 in nonlinear optical applications.

Research explores machine learning techniques to study soft material behaviors.

Research reveals key factors influencing high-temperature superconductivity in La Ni O.

Research reveals how iron alters manganese germanium's unique electrical and magnetic properties.

Exploring how polymers react to forces and temperature changes.

Negative refraction reveals new ways light interacts with materials, opening up innovative applications.

Investigating the magnetic and electronic properties of LaMnSb reveals unique characteristics influenced by vacancies.

A new model enhances predictions for magnetic hysteresis in materials.

Graphene's unique properties lead to advanced sensing applications in various fields.

Scientists manipulate Rydberg atoms to study complex behaviors in quantum physics.

Research reveals how droplets interact before merging with liquid surfaces.

Research highlights complex magnetic behaviors in copper doped lead apatite.

Exploring the unique properties and applications of 2D antiferromagnetic materials.

This article discusses a new method for modeling electric double layers in energy storage devices.