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

Since it is compatible with CMOS processes of classic silicon technology, SiC would be ideal for the industrial mass ...

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

Scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have developed a novel artificial ...

The explosion in data quantity has kept the marriage of computing and statistics thriving through successive hype cycles: ...

Key Takeaways TRON H2 2025 Rewind In our previous report, we covered the events that shaped TRON in the first half of 2025.

By moving model runs to iPhones and Macs, Apple cuts reliance on data centers and lowers energy use, so you get quicker, ...

Running both phases on the same silicon creates inefficiencies, which is why decoupling the two opens the door to new ...

Despite lots of hype, "voice AI" has so far largely been a euphemism for a request-response loop. You speak, a cloud server ...

Users can already utilise Copilot for texts, research, settings, and creative tasks. We demonstrate the possibilities and ...

On the Humanity’s Last Exam (HLE) benchmark, Kimi K2.5 scored 50.2% (with tools), surpassing OpenAI’s GPT-5.2 (xhigh) and ...

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 ...