Detecting dark matter, the elusive type of matter predicted to account for most of the universe's mass, has so far proved to ...

Because we haven't found anything yet, we've started to wonder if dark matter might be lighter or heavier than we thought.

While there are many, many models of potential dark matter candidates, many interact with regular particles through exchanges involving the Higgs boson — a fundamental particle that interacts ...

“Whatever is left must be something new, and that could be the dark matter.” The researchers are working to identify and locate potential candidates that could be dark matter detector ...

On a similar note, many dark-matter candidates are predicted to produce more cosmic-ray antiprotons than are observed if the annihilation rate is normalized to the electron and positron signals ...

These two properties of axions mean that they are exceptionally good at collapsing down to incredibly high densities, pulled ...

while presenting new results on non-WIMP dark matter candidates and lastly highlighting the future prospects of both larger-scale detectors using existing, tried-and-true techniques, and novel ...

The mystery of dark matter could be solved in as little as 10 seconds. When the next nearby supernova goes off, any gamma-ray telescope pointing in the right direction might be treated to more than a ...

Physicists have been searching for various particles that could be promising dark matter candidates, such as dark photons and axions, focusing on signatures associated with their presence or ...

When you buy through links on our articles, Future and its syndication partners may earn a commission. Invisible dark matter makes up most of the mass in the universe, far outweighing the amount ...

One of these candidates is so-called light dark matter (LDM), particles with low masses below a few giga-electron volts (GeV/c 2). Theories suggest that these particles could weakly interact with ...