A black hole is not sitting inside a lab in Manhattan, but some of its strangest physics just helped shape a tabletop experiment there. For decades, physicists have wondered whether waves could steal ...
We've talked plenty of times here about the infeasibility of launching a mirror big enough to directly image exoplanets using ...
Some people are more sensitive to low-frequency noise, such as from ventilation systems, heat pumps, wind turbines and ...
Hiring more officers and fielding quicker versions of legacy equipment are no longer sufficient answers to the threats that agencies now face. Consumer-grade drones available for under $500 have ...
Researchers showed that nearby dielectric materials can drain energy from ultracoherent nanomechanical resonators without ...
The demonstrated system achieved short-term fractional frequency stability highlighting the platform’s potential for future chip-scale quantum ...
Two newly issued U.S. patents covering artificial intelligence-driven barrel monitoring and multi-frequency RF sensing expand the company's intellectual property portfolio to six issued patents, ...
Nanomechanical resonators are miniature vibrating structures on chips that oscillate at frequencies ranging from a few ...
One day, tiny swimming robots may travel through the human body to deliver drugs. The medication would target only areas of ...
Combining artificial intelligence with physical climate modelling enables more accurate characterization of rare weather ...
A gravitational-wave signal detected last November — one with properties that no known stellar physics can account for — has just received its most rigorous scientific treatment yet. A peer-reviewed ...
A breakthrough quantum sensor has shown it can uncover hidden signals through overwhelming noise, paving the way for future ...