Cells are squishy and soft. Tiny nanometer-sized particles such as quantum sensors cannot move freely inside them due to viscous drag, which makes sensing challenging. Researchers at the Indian ...

A Swiss research team has successfully developed a novel 4D imaging sensor on a single chip, with their findings published in ...

For all the functionality they add to your wrist, smartwatches really don't hold a candle to the style and elegance of an ...

Particle accelerators reveal the heart of nuclear matter by smashing together atoms at close to the speed of light. The ...

An optical principle discovered more than a century ago may soon find new applications in such areas as monitoring ...

Researchers at Pointcloud GmbH in Zürich, Switzerland, have packed advanced 4D sensing technology — ...

After recently earning the most 2026 IIHS Top Safety Pick+ awards with eight, Mazda shared a new study suggesting that investing in more advanced driver assistance system features can reduce insurance ...

Scientists have turned simple glass into a powerful quantum communication device that could safeguard data against future quantum attacks. The chip combines stability, speed, and versatility—handling ...

Why is this an important trend? Spatial computing promises to become a new computing paradigm, replacing the era of ...

Deep inside every atom lies a restless world of quarks and gluons—the tiny building ...

A new experiment using rare-isotope beams has provided new insight into the origin of proton-rich isotopes known as p-nuclei.

Current vision systems for robots and drones rely on 3D sensors that, although powerful, do not always keep up with the fast-paced, unpredictable movement of the real world. These systems often ...