SiTime’s EVP of Marketing, Piyush Sevalia, explains how their groundbreaking MEMS timing technology is transforming the ...

Taiwan has announced that its domestically developed high-frequency gallium nitride (GaN) 8-inch process demonstrates greater ...

The report presents information related to key drivers, restraints, and opportunities with a detailed impact on silicon EPI wafer market analysis. <p ...

Market Growth: The SiC Wafer Defect Inspection System market is projected to grow from USD 3.2 billion in 2024 to USD 6.5 ...

The Innovation Lab uses machines that process silicon wafers that are 8 inches in diameter, or 200 millimeters. Advanced commercial-scale chipmaking typically uses 12-inch, or 300-millimeter ...

Forward-looking layout to create differentiation, the first 12-inch silicon carbide ... The 300mm silicon carbide substrate material can further expand the area that can be used for chip manufacturing ...

ALHAMBRA, Calif., Jan. 23, 2025 /CNW/ -- Ortel, a Photonics Foundries enterprise, today announced the successful transfer of wafer fabrication for its C-Band, High-Power, Continuous Wave Laser ...

"By fine tuning the first step of the silicon wafer passivation, we could induce the nucleation of these nanoislands," says Dong-Jik Kim, a scientist in Dubourdieu's team. These domains can be ...

Abstract: Silicon wafers are the most common semiconductor substrate, and their quality plays a decisive role in the service performance of semiconductor devices. Diamond wire sawing is the first and ...

Computer chips are typically made on 12-inch silicon wafers that are processed through various stages of chip manufacturing. Individual transistors and other chip features that are invisible to ...

Operating with low power on silicon wafers, it promises efficient, cost-effective solutions for next-generation microchips. Credit: Forschungszentrum Jülich / Jhonny Tiscareno International research ...