The catalog of gravitational waves "heard" by LIGO, KAGRA and Virgo has doubled with detections of spacetime ripples.

Neutron stars harbor some of the most extreme environments in the universe: their densities soar to several times those of ...

Neutron detection remains at the forefront of experimental physics and engineering, with technologies continually evolving to address both scientific inquiry and practical safety applications. Recent ...

Scientists report over 100 new gravitational wave detections, doubling the known catalog of black hole and neutron star ...

The detection of neutrons and the utilisation of scintillation techniques stand at the forefront of advances in nuclear science, security, and medical imaging. Neutrons, with their weak interaction ...

An experiment more than 10 years in the making has delivered its first glimpse of the hurricane of particles whirring inside subatomic particles called neutrons, laying the groundwork to solve a ...

Neutron stars are ultra-dense remnants of massive stars that collapsed after supernova explosions and are made up mostly of subatomic particles with no electric charge (i.e., neutrons). When two ...

HOUSTON – It’s no secret that radiation is a great danger to astronauts. Most of the research to date concerns the effects of galactic cosmic rays, but what happens to those particles when they pass ...

In a muon tomography detector, cosmic-ray muons interact with an object and strike scintillators that emit photons. Wavelength-shifting fibers transmit the photons to photodetectors that digitize the ...

Researchers co-led a study that will improve the detection of gravitational waves--ripples in space and time. Researchers at the University of Minnesota Twin Cities College of Science and Engineering ...

The density of a neutron star is key to its use as a dark matter detector. When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works. Breaking space news, ...

In the world of nuclear physics, protons often take the spotlight. But now, for the first time, the neutron has stepped into it. A recent experiment using the U.S. Department of Energy’s Jefferson Lab ...