Atomic layer processing improves optical performance in SiC photonic devices, crucial for developing efficient quantum systems and integrated photonic circuits.

Researchers from the Max Planck Institute for the Science of Light and the Fraunhofer Institute for Integrated Systems and Device Technology IISB are advancing silicon carbide as a key material ...

Silicon carbide is for photonic circuits and quantum devices. Atomic layer processing boosts SiC waveguides and resonators, improving performance.

Silicon carbide (SiC) is a promising material platform for photonic integrated circuits (PICs) and miniaturized solid-state quantum systems. In the ALP-4-SiC project, researchers from the Max Planck ...

While the market for conventional webcam and laptop camera modules remains robust, driven by hybrid work models, the most significant innovation and value are now concentrated in specialized segments.

In the 1970s CPUs still had wildly different approaches to basic features, with the Intel 8086 being one of them. Whereas the ...

Researchers developed a CMOS platform that reads 32 graphene sensors in real time, enabling detailed mapping of fast, ...

The field of brain connectomics has rapidly evolved, transforming our understanding of neural structures and the intricate patterns that underlie brain ...

Using the LMC555 CMOS analog timer to set a frequency from < 10Hz to > 100kHz, giving this design a strong dynamic range but ...

Quantum computing represents a potential breakthrough technology that could far surpass the technical limitations of ...

Beyond their sparkle, diamonds have hidden talents. They shed heat better than any material, tolerate extreme temperatures ...

A new transceiver invented by electrical engineers at the University of California, Irvine boosts radio frequencies into ...