Physicists are closing in on a strange, hidden influence that does not fit neatly into the four familiar forces of nature, and the search is reshaping how detectors are built and where they are ...

Physicists suggest that a single, extraordinarily powerful cosmic signal detected on Earth could be linked to the explosive ...

For decades, astronomers have treated dark matter as the invisible scaffolding of the cosmos, a mysterious substance that ...

A team of researchers argue that the detection of a powerful neutrino collision was actually a sign of an ancient black hole ...

Physicists are building detectors so sensitive that they may succeed in unraveling one of the greatest mysteries in modern physics: the true nature of dark matter.

York was the first researcher to find an isotope of hydrogen known as deuterium, which helped give researchers an ...

Modern physics relies on "Dark Energy," "Dark Matter," and over 20 arbitrary tuning parameters to explain the universe. A comprehensive AI-driven audit performed by Gemini Pro on 20 technical papers ...

Most of the universe is made of dark matter and dark energy, yet scientists still don’t know what either one is. New ultra-sensitive detectors are being built to spot incredibly rare particle ...

Humanity has worked itself into a position where we can detect a single high-energy particle from space and wonder where in Nature it came from. Billions of people likely don’t care at all about such ...

Neutrino particles have extremely small masses, yet there are so many of them that they carve out the large-scale structure ...

Physicists think a 2023 particle detection marks the first exploding black hole seen. If true, it rewrites our understanding of dark matter.

A rare black hole explosion accounts for an “impossible” neutrino detection, say UMass Amherst scientists, possibly hinting ...