This study reveals nonlinear optical properties of semiconductor-metal nanocavities, enhancing imaging techniques for advanced nanophotonic device development.

Researchers at the Jülich Research Center and the Leibniz Institute for Innovative Microelectronics (IHP) have developed a ...

UChicago researchers created a ‘quantum-inspired’ revolution in microelectronics, storing classical computer memory in ...

Until recently, most studies on subgap states focused on amorphous IGZO, as sufficiently large single-crystal IGZO (sc-IGZO) ...

Many displays found in smartphones and televisions rely on thin-film transistors (TFTs) made from indium gallium zinc oxide ...

N thin films with record-high scandium levels, with exciting potential for ultra-low-power memory devices, as reported by ...

In this paper, we review the state-of-the-art of intrinsic semiconductor detector arrays and project future areas of development. Infrared focal planes in intrinsic semiconductors offer advantages ...

Keywords: YAlN, ScAlN, crystal structure, elastic properties, thermal properties, semiconductors, metal nitrides, acoustic devices Citation: Afshar N, Yassine M and Ambacher O (2025) A comprehensive ...

Scientists use math to predict crystal structure in hours instead of months Date: November 14, 2024 Source: New York University Summary: Researchers have devised a mathematical approach to predict ...

Utilizing the self-developed highly sensitive MFM, the first direct observation of intrinsic magnetic structures in a kagome lattice has been achieved. A new type of topologically broken magnetic ...

However, the intrinsic spin patterns governed by these lattices remain an open question. Utilizing the self-developed highly sensitive MFM, the first direct observation of intrinsic magnetic ...