A neutrino telescope, therefore, is a giant exercise in statistics. Observe lots of atoms for a long time and sooner or later ...

You would have to flip 75 heads in a row on a fair coin to have the same probability of a single neutrino interacting with a ...

Traditional black holes, as predicted by Albert Einstein's theory of General Relativity, contain what are known as ...

"History shows us that whenever you do open a new 'energy window,' you never really know what you're going to find. It's completely unexplored." ...

Euclid, a space telescope on a mission to uncover the secrets of dark matter and dark energy, has already made a stunning discovery: a perfectly formed Einstein ring hidden in a well-known galaxy.

A combined ground EM and Resistivity survey will begin in early March on the Spring Bay target February 11, 2025 - Global Uranium Corp. and Forum Energy Metals Corp. are pleased to announce that camp ...

Dark matter is more than five times as abundant as all the visible matter in the universe. So why can't we see any of it?

Quantum sensors offer exceptional precision in measuring magnetic fields, gravity and motion, making them invaluable for defense. However, they struggle in real-world conditions, especially on moving ...

Mathematical equations have shaped our understanding of the universe, and these nine have played a key role in changing the world.

By observing tiny ripples in spacetime called "gravitational waves" that propagate away from colliding black holes, ...

A collaboration between Nordita, the Nordic Institute for Theoretical Physics, hosted by Stockholm University, KTH and Google Quantum AI explores how gravitational fields influence quantum computing ...

A collaboration between Nordita, The Nordic Institute for Theoretical Physics, hosted by Stockholm University and KTH and Google Quantum AI explores ...