A decade in the making, this upgraded detector will explore the properties of the quark-gluon plasma that formed a millionth ...

Ohio University’s particle accelerator allows physics students to study and experiment with no limits to their learning.

Over the past decades, many research teams worldwide have been trying to detect dark matter, an elusive type of matter that ...

The sPHENIX detector passed calibration, paving the way to study quark-gluon plasma and unlock secrets of the early universe.

A joint team from the University of Stuttgart in Germany and the University of Melbourne in Australia has developed a new ...

From the outside, wildfire smoke may look like a drifting gray cloud. But for scientists, these plumes are dynamic, complex, ...

To give a perspective of the size, a nano-particle is several thousand times smaller than the width of a human hair.

Researchers in Germany and Australia have created a simple but powerful tool to detect nanoplastics—tiny, invisible particles ...

JERUSALEM, Sept. 14 (Xinhua) -- An international team of scientists has developed a promising advanced method for detecting low-mass dark matter, according to a statement issued by the Hebrew ...

Solar Orbiter flew closer to the Sun than ever before. This proximity let it capture electrons in pristine conditions.

Physicists have unveiled a new superconducting detector sensitive enough to hunt dark matter particles smaller than electrons ...

About 80% of the universe's mass is thought to consist of dark matter. Yet, little is known about the composition and ...