Two countries to the west, a thumbnail-sized glass cell in Basel does a similar trick with warm-rubidium vapour. Together, ...

Scientists from the University of Rochester and UC Santa Barbara have built a laser so small it can sit on a penny. But don’t let its size fool you. This tiny laser could power the next generation of ...

Automated test equipment market is pivoting from speed-centric instruments toward cloud-anchored, AI-driven, mixed-signal platforms that handle 6G, E ...

The device is slim at just 7.58mm, but it’s a bit on the heavier side, tipping the scales at over 200 grams ... voice input and works smoothly with OPPO’s Notes, Calendar, and Clock apps to summarize ...

These new chips will make devices last longer on battery and run much faster, which is good for everything from phones to big computers. The demand for 3 nm chips is growing fast, especially in areas ...

Artificial intelligence systems like ChatGPT are notorious for being power-hungry. To tackle this challenge, a team from the ...

In a milestone for scalable quantum technologies, scientists from Boston University, UC Berkeley, and Northwestern University ...

Systematic monitor analytics approach evaluates power and performance of silicon from a small volume of test chips to the ...

New research demonstrates that emerging high-capacity fiber optic networks could be used to connect optical clocks at various locations, enabling new scientific applications.

A hair-thin optical chip transmits AI training data at 1,000 Gbps using just 4 joules of energy, offering a compact, ...

Precision and stability The rapid evolution of quantum computing and optical clocks has led to a demand for an unprecedented degree of stability, thereby driving the boundaries of contemporary laser ...