A breakthrough in quantum computing achieves 99.91% accuracy using 17,000 pairs of atoms, bringing us closer to a new era in ...

Curious about AI, but not sure where to start? Google Labs has dozens of AI experiments you can try out. Here are some of my ...

On a breezy afternoon last autumn in Cambridge, Mass., in a laboratory thrumming with the huff-whish-huff sound of ...

“So many people—myself included—avoid small talk, dread networking events, and assume that certain topics just won’t be ...

Wellness influencers tout the therapy's power for everything from rejuvenating skin and hair to boosting longevity. Devices sold for at-home use abound. We look at the evidence behind the hype.

KTH Royal Institute of Technology and SciLifeLab postdoctoral Patricia Sosa Acosta uses affinity proteomics to discover ...

Particles produced from brake and tire wear now represent the majority of emissions from road transport. As the EU cracks ...

Scientists have introduced a microscopy technique that reveals a hidden layer of chemistry involving molecules that normally ...

The science fiction blockbuster wowed audiences with its depiction of space travel and more. Here's what NASA staff and other ...

A Majorana fermion is a particle that would be identical to its antiparticle. Such an object has not yet been found. However, ...

The deep interiors of ice giants such as Uranus and Neptune may contain a previously unknown form of matter, based on new computational research by Carnegie scientists Cong Liu and Ronald Cohen.

US researchers unlocks atomic magnetism, advancing spintronics for faster, smaller, energy-efficient AI-ready electronics.