Scientists may be just 15 years away from finally detecting dark matter thanks to a new kind of detector that acts like a ...

While the particle remains elusive, the team is hopeful since they know exactly where to look for sterile neutrinos – at the ...

Dark matter, the invisible substance that makes up a significant portion of the universe, continues to puzzle scientists. For ...

Astronomers have long been puzzled by two strange phenomena at the heart of our galaxy. First, the gas in the central ...

The physics & astronomy professor joins an international team in detecting solar neutrinos, advancing search for elusive dark ...

The detection of dark matter, the elusive type of matter predicted to make up most of the universe's mass, is a long-standing ...

The infant universe's population of huge black holes could owe itself to ultralight dark matter, scientists say.

Physicists are tapping into the strange world of quantum sensors to revolutionize particle detection in the next generation ...

"We don't know the frequency, so we need to keep tuning and trying different ones, like searching for a good radio station ...

As the world gears up for more powerful particle colliders, new 4D quantum sensors tested at Fermilab promise sharper ...

A long-elusive, hypothetical subatomic particle called the axion can be simulated and potentially detected in a type of thin material.

If dark matter is creating positrons in the CMZ, those particles will eventually slow down and eventually annihilate with electrons in the environment, producing gamma-rays at exactly 511keV energy.