Quantum sensors have become important tools in low-energy particle physics. Michael Doser explores opportunities to exploit ...

A new analysis of BL Lacertae by NASA’s Imaging X-ray Polarimetry Explorer sheds light on the emission mechanisms of active ...

Scientists have never directly detected dark matter, but some wonder if one high-energy detection in 2023 could be a rare ...

Is Earth's inner core solid or liquid? While the inner core is extremely hot, experts have known that it is solid for many ...

The KATRIN collaboration has published an upper limit on the sum of the masses of the three known neutrino types using 259 days of measurements recorded across five data-taking runs between March 2019 ...

Maike Bierbaum: 040 8998-4578 / -1666, [email protected] Heidrun Hillen: 040 8998-4596, [email protected] ...

We may already have had our first-ever encounter with dark matter, according to researchers who say a mysteriously high-energy particle detected in 2023 is not a neutrino after all, but something far ...

The IceCube Neutrino Observatory has detected a "high-energy neutrino emission from within the Milky Way," according to AAAS.

According to a provocative new study, that might just be our cosmic address. This idea is meant to solve one of the biggest ...

That could one day measure the neutrino mass even more precisely, possibly solving one of the biggest puzzles in physics. Spectra, fit models, and normalized residuals of each measurement campaign.

Reporters have been invited to take their first look at the cavern being built to house the Hyper-Kamiokande detector for ...