Scientists have used a novel new approach to discover the potential origins of the sun goddess particle Amaterasu, the second ...

The research team used two distributed sensors and leveraged two quantum resources for increasing detection sensitivity: ...

Scientists have utilized the unique properties of quantum states of light to implement distributed, quantum-enhanced sensing.

Extracellular vesicles (EVs) are tiny membrane-bound particles released by cells to transport proteins and other molecules to neighboring cells. Because of this natural delivery ability, EVs have ...

NASA’s Parker Solar Probe has completed a historic milestone by traveling closer to the Sun than any spacecraft before it. The groundbreaking data it has collected is offering new insights into the ...

From “research isn’t for me” to designing gamma-ray detectors and studying in Japan—Lincoln Potts turned one small yes into a ...

Magnetic fields thread through galaxies, stretch across cosmic voids, and shape the behavior of charged particles over millions of light-years. Yet their origin remains one of the most stubborn ...

The performance and stability of smartphones and artificial intelligence (AI) services depend on how uniformly and precisely semiconductor surfaces are processed. KAIST researchers have expanded the ...

A team in Japan may have found a way to track the invisible force that shapes our universe, without needing to see or touch it.

UCR-led study finds that tiny, invisible gases long thought to be irrelevant in cloud formation appear to play a major role in determining whether clouds form—and possibly whether it rains. This ...

As part of an effort to bring the study of space radiation in-house, SpaceX is now developing its own particle accelerator in Florida.

Close to the sun, the solar wind, a steady stream of charged particles, accelerates until it cannot turn back. During a record pass about 3.8 million miles above the surface, Parker Solar Probe ...