Tohoku University researchers have found a way to make quantum sensors more sensitive by connecting superconducting qubits in optimized network patterns. These networks amplify faint signals possibly ...

Ordinary matter – basically, anything other than dark matter – makes up about 15% of all matter. But half of it has long been missing. Powerful bursts of radio waves emanating from 69 locations in the ...

Dark matter remains one of science's greatest mysteries, possibly making up 85% of all matter in the universe. Despite decades of research, its exact nature is unknown. One leading candidate to ...

Scientists have designed a ‘cosmic radio’ detector which could discover dark matter in 15 years. Published today in Nature, scientists at King’s College London, Harvard University, UC Berkley and ...

Researchers propose that hydrogen gas from the early Universe emitted detectable radio waves influenced by dark matter. Studying these signals, especially from the Moon’s radio-quiet environment, ...

A team of researchers from King’s College London, Harvard University, UC Berkeley, and others may have taken a major step toward solving one of the universe’s biggest mysteries. They’ve developed the ...

A new study from Tel Aviv University has predicted, for the first time, the groundbreaking results that can be obtained from detecting radio waves coming to us from the early Universe. The findings ...

Dark matter is an elusive type of matter that does not emit, absorb or reflect light, interacting very weakly with ordinary matter. These characteristics make it impossible to detect using ...

Dark matter is the unobservable form of matter that could make up as much as 85% of mass in the universe, but scientists are not sure exactly what it is. Axions are one of the leading candidates for ...

Particle detector Calculations suggest that millicharged dark matter could be detected by observing its interaction with ...