The Big Bang created equal amounts of matter and antimatter. So, why is there so much more matter than antimatter in the Universe? Irfu is participating in the preparation of Hyper-Kamiokande, a ...

The neutrino “fog” is beginning to materialize. Lightweight subatomic particles called neutrinos have begun elbowing their way into the data of experiments not designed to spot them. Two experiments, ...

In the ongoing battle against obesity, whether size matters takes on a new dimension regarding snacks. While discussions often center around nutritional content and dietary habits, the impact of ...

Over the past decades, many research teams worldwide have been trying to detect dark matter, an elusive type of matter that does not emit, reflect or absorb light, using a variety of highly sensitive ...

Dark matter is claimed to make up over 80% of all matter in the universe, but scientists have never seen it. We only assume it exists because, without it, the behavior of stars, planets and galaxies ...

The world’s most sensitive dark matter detector still hasn’t found evidence of weakly interacting massive particles, or WIMPs, but the search continues. LZ’s central detector, the time projection ...

Physicists are preparing for the next generation of dark-matter experiments. Imagine all the matter in the universe is a set of billiard balls on a pool table, each awaiting the cue ball’s strike. If ...