Latest Articles for Material Science

Researchers improve iron garnet films for enhanced microwave performance at low temperatures.

Exploring the dynamics of complex interactions in reaction-diffusion systems.

Research into supersolid states in polaritons could lead to new technologies.

A study on how waveguides enhance light emission from quantum emitters.

Discover the fascinating world of sign-changing metamaterials and their potential applications.

Recent findings reveal surprising properties of α and β beryllenes as superconductors.

Exploring key aspects of the radiation gauge in electromagnetic theory.

Investigating interparticle interactions in two-dimensional materials and their influence on the valley Hall effect.

Research on Clevios' fluorescence in TPC applications reveals minimal background noise.

Research reveals key factors influencing quantum computation errors in superconducting qubits.

Investigating the mixed-CDW phase in 1T-TaS₂ for future technology applications.

Scientists examine fractional Chern insulators and their role in electronic behavior.

New insights into single molecular magnets optimize quantum computing potential.

This study examines how fast and slow active particles interact in mixtures.

Study reveals how heat treatments improve niobium SRF cavities' performance.

Examining quantum dots for efficient thermoelectric cooling applications.

A deep look into the unique properties of Ce Zr O material.

Research reveals patterns in hole sizes within crystalline structures of hard spheres.

Research reveals new states in SrCoO using strain techniques.

Exploring the use of BICs in advanced photonic applications.

Examining the stability of cantilever structures in soft robotic applications.

Research focuses on improving solar cell efficiency using quantum principles.

Doped topological insulators exhibit unique properties important for superconductivity and electronics.

Analyzing how tiny moving particles change phases and interact under various conditions.

Examining electron interactions in materials through the Hubbard model framework.

Research explores cavitation in rubber, enhancing product durability through better material composition.

Study reveals how LiVO changes structure and magnetic properties with temperature.

Researchers improve HgTe nanowires for future electronics and quantum technologies.

Examining ferroaxial materials and their electric toroidal dipole properties for future applications.

This article discusses magnonic squeezed states and their applications in quantum technologies.

Research highlights the promise of lead halide perovskites for efficient solar cells.

Study reveals how charge carriers in graphene layers influence each other through Coulomb drag.

Exploring how randomness impacts movement in various environments.

This study reveals how symmetry and entropy affect particle behavior in disordered crystals.

Exploring the effects of temperature and noise on quantum devices.

Investigating the unique magnetic properties of KBaCr(PO4)2 reveals complex interactions.

Investigating the complex behavior of bosons and fermions in mixtures.

This article investigates cellulose Iβ and II stability using simulations and energy calculations.

A glimpse into the dynamics of light and matter interactions through photoionization.

Exploring the relationship between boundary states and non-Hermitian behavior in materials.