Superconducting resonator enables searches at higher resonance frequencies while maintaining high quality factor.

Researchers from China recently announced the creation of the largest quantum network in history to directly investigate the ...

Axions, first postulated to resolve the strong‐CP problem in quantum chromodynamics, have emerged as a leading candidate for dark matter. Their incredibly weak interactions make them challenging to ...

Magnetic fields thread through galaxies, stretch across cosmic voids, and shape the behavior of charged particles over millions of light-years. Yet their origin remains one of the most stubborn ...

Add Yahoo as a preferred source to see more of our stories on Google. When you buy through links on our articles, Future and its syndication partners may earn a commission. How do you search for ...

Researchers from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences and their collaborators developed the first intercity nuclear-spin-based quantum sensor ...

Tiny highly uniform magnetic fields are known to pervade the universe, influencing various cosmological processes. To date, ...

As physicist Cumrun Vafa once told me, puzzles in science often come in pairs, each serving as the other’s solution. Basically, you never know what concept in physics might end up useful for ...

I have a question about the distinction between 'light emitting matter', and 'invisible' matter, the 'dark matter', So, where do objects like planets, asteroids, comets, dust, and particles like ...

I'm not sure the article makes much of a case for why axions specifically should still be investigated. By my reading, they make QCD a bit less mysterious and it would be great if they also explained ...