The IceCube observatory in Antarctica has been expanded with over 600 sensors. They are intended to search for low-energy neutrinos.

New optical modules have now been added to the IceCube Observatory, allowing it to measure lower-energy neutrinos as well.

IceCube's new UV-sensitive modules are expected to reveal neutrinos from distant galaxies, supernovae and other cosmic sources.

Scott South Pole Station has been delivering groundbreaking measurements of high-energy cosmic neutrinos. It consists of many detectors embedded in a volume of Antarctic ice measuring approximately ...

The above-ground part of the IceCube experiment and a graphic simulation of a measurement signal from the detectors in the ice (Photo: Stephan ...

Primordial black holes could rewrite our understanding of dark matter and the early universe. A record-breaking detection at the bottom of the Mediterranean Sea has some physicists wondering if we ...

(via PBS Space Time) The universe thrums with quantum fields; and the particles of matter and force emerge as vibrational manifestations of the deep symmetries of these fields. The layers and ...

The Jiangmen Underground Neutrino Observatory (JUNO) is on the hunt to determine the mass ordering of neutrino flavors, and its first results show that it’s delivering beyond expectations. First ...

Neutrinos may be nearly invisible, but they play a starring role in the Universe. Long-standing anomalies had hinted at a mysterious fourth “sterile” neutrino, potentially rewriting the laws of ...

Since the 1990s, physicists have pondered the tantalizing possibility of an exotic fourth type of neutrino, dubbed the “sterile” neutrino, that doesn’t interact with regular matter at all, apart from ...

Scientists have taken a major step toward solving a long-standing mystery in particle physics, by finding no sign of the particle many hoped would explain it. An international collaboration of ...