Latest Articles for Materials Science

Examining magnetic behaviors in square lattices and their significance in technology.

A look at the behavior of electromagnetic waves in unique materials.

Explore how microstructure influences the performance of hyperelastic materials.

Study reveals how material layers affect fracture behavior in fluid-filled environments.

Researchers demonstrate increased wave speeds using non-Hermitian lattices.

Research reveals ultrasonic processing can enhance metal quality in additive manufacturing.

Exploring non-local heating and cooling effects in thermoelectric materials at the nanoscale.

Exploring the Floquet SSH model's insights into energy flow through materials.

A new framework predicts crack patterns in concrete for improved structural integrity.

New methods improve efficiency in studying periodic systems for better material insights.

Researchers develop a new approach utilizing quantum devices to compute excited states efficiently.

Exploring the fascinating behaviors of composite fermions and the CFL state.

This article discusses quantum control of oscillators using Kerr-cat qubits and their implications.

Research focuses on improving light output in nanocomposite scintillators for particle detection.

New neutron scattering techniques enhance skyrmion studies, improving spintronic device design.

Researchers improve models for open quantum systems using the polaron master equation.

New models help design materials that control wave behavior effectively.

Research reveals unique properties of quantum skyrmion liquids, advancing our grasp of magnetism.

Research reveals how smectic films respond to deformation, impacting future technology applications.

Exploring polariton condensates reveals crucial insights into quantum behavior and superfluidity.

Explore the Berry phase and its impact on materials science and quantum systems.

Research focuses on enhancing NCM materials in lithium-ion batteries through advanced doping techniques.

Exploring the fascinating properties and applications of Fourier quasicrystals in science.

Research reveals new quantum states in materials through electron doping and moiré patterns.

Researchers uncover charge patterns linked to temperature in ScV Sn.

New techniques improve accuracy in analyzing nearly incompressible materials.

Co Sn S exhibits unusual magnetic behavior and memory effects.

Exploring the properties and potential applications of flat-band solitons.

A look into the pseudogap phenomenon in high-temperature superconductors using the Hubbard model.

Innovative techniques improve understanding of electron behaviors and interactions in materials.

Investigating charge density waves reveals new insights into electron behavior in materials.

New model helps predict microstructure changes during heat treatments in LPBF-processed alloy.

Exploring the unique magnetic interactions of nanographenes for advanced technologies.

Researchers use Tree Tensor Networks for efficient quantum system simulations.

Investigating one-dimensional excitonic insulators for new electronic materials.

Research reveals how nickel substitution affects the magnetic properties of Sr(Co Ni)P.

Researchers achieve high-quality MoSe layers on hBN, enhancing optical properties for future tech.

Research reveals unique magnetic order in Na PrO using advanced techniques.

Research reveals unique electronic states in AB-stacked MoTe/WSe materials.

Study reveals unique superconducting behavior in Bi2212 without normal fluid presence.