Latest Articles for Materials Science

Discover the unique electronic properties of supertopological materials and their potential applications.

A new spectrometer makes ESR accessible and customizable for researchers.

Researchers develop methods to control photon behavior using quantum simulators.

A study on the properties and potential applications of specific clinopyroxenes.

Control magnons with electric fields in multiferroic materials like NiI.

New approach enhances generative models for efficient compound discovery.

New multi-layered systems improve temperature measurement accuracy using quantum principles.

Examining how temperature influences electron and hole behavior in CsPbI nanocrystals.

Research on ferromagnets and superconductors could lead to advanced technology.

Learn how time discretization helps us study viscoelastic materials.

Colloidal semiconductor nanoplatelets show promise for efficient single-photon emission.

CoTra offers insights into classifying quantum phases and correlations.

Exploring how material properties affect earthquake-resistant design.

Research reveals new methods for controlling silicon-based qubits and addressing crosstalk challenges.

Research explores grain boundaries' motion using pseudo-parabolic equations.

A detailed comparison of two forms of sodium germanium selenide for future applications.

New method enhances prediction of crystal structures in complex materials.

Examining how small holes influence the behavior of flexible materials.

Research reveals potential of metastable states for improved quantum computing.

Scientists refine timing methods for better measurements in ultrafast electron diffraction.

Discover how magnetic compressors improve timing in ultrafast electron diffraction techniques.

Examining the unique properties of quasiparticles and their fractional statistics.

MXenes showcase unique properties that could revolutionize energy storage and electronics.

Research focuses on improving electrical contacts to enhance quantum computing.

BaCo(AsO) shows remarkable heat conduction linked to magnetic properties.

Research reveals unique electron behaviors in twisted bilayer graphene's moiré patterns.

This article examines projected Fermi sea states and their physical properties through tensor networks.

Examining how Fermions interact and affect metal properties.

Study reveals stripe formation in layered superconductors under magnetic fields.

Exploring how time-dependent materials can change light interaction.

New methods enhance imaging of large biological specimens using advanced techniques.

Research reveals how impurities change the characteristics of hexagonal-diamond silicon.

Researchers examine how pressure alters properties of EuRhGe, revealing unique magnetic behaviors.

Research on LaTiSb reveals significant phase transition insights and unique properties.

This article discusses using machine learning to speed up DFT calculations in materials science.

Research reveals insights into superconductivity through the double Kondo lattice model.

Exploring defects, boundary conditions, and symmetry in theoretical physics.

A look into how tiny particles affect friction in materials.

A look into quantum phase transitions and innovative methods for studying them.

Explore polaron formation in various insulating materials and its implications.