Latest Articles for Defects

Hexagonal boron nitride is vital for the future of quantum technologies.

Examining the intricate world of infinite-layer nickelates and their superconducting potential.

A look at how defects affect material properties at high temperatures.

A look into how domain walls form in materials under ultrafast conditions.

Researchers modify YBCO films using helium ions to improve superconducting properties.

Research highlights improvements in lithium argyrodite for safer, more efficient batteries.

A look into the unique behaviors of active fluids and their applications.

This study reveals how perception impacts cooperation in diverse scenarios.

New modeling reveals how defects and doping affect grain growth in oxide ceramics.

Exploring the performance of silicon sensors in radiation environments.

Exploring defects' role in six-dimensional superconformal field theories.

A new method improves pore detection in additive manufacturing using Gaussian estimation.

Study reveals how manufacturing flaws affect fatigue life in superalloys.

Research reveals how defects in MoS2 affect its heat conductivity, enhancing device performance.

Study reveals unique phases of matter for hard-core bosons in a zigzag ladder.

New imaging technology reveals how nanoscale materials behave under heat.

A smartphone microscope designed to detect defects in metallic mesh materials.

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

New methods in quantum computing improve energy calculations for materials at the atomic level.

Study reveals insights on CAV defects in SiC for quantum technology applications.

Research on PF2 ions aims to enhance phosphorus accuracy in quantum computers.

Exploring how defects influence entanglement in quantum systems.

New research highlights how rhombus defects enhance the stability of quasicrystals.

Exploring the unique properties and applications of black phosphorus in electronics.

Investigating the iron-magnetite interface reveals insights for material improvements.

Research highlights the unique behavior of layered PtSe in electronics.

La:BaSnO shows promise in enhancing performance of electronic and solar devices.

Exploring how changes in Half-Heusler materials affect their unique properties.

Hexagonal boron nitride shows promise for advances in quantum information processing.

Researchers use optimal control theory to manage active nematic materials effectively.

Exploring how edge imperfections and magnetic fields affect topological insulators.

Using advanced machine learning to improve sewer defect detection efficiently.

This article explores how different defects behave under various conditions in field theories.

A look into the study of complex three-dimensional shapes.

A new framework enhances PCB quality control through automated defect detection methods.

Research reveals how electric fields change properties of titanium dioxide.

Examining how defects in talcum can influence its use in advanced technologies.

Research reveals crucial details about defects in phosphorene affecting electronic applications.

Research reveals the role of localized defects in the boson peak phenomenon.

Selenium shows potential for improving solar cell efficiency and performance.