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?

Despite its name, the weak force is much stronger ... Once I discovered how to rephrase my understanding of the dark matter interaction problem in the jargon used by condensed matter and atomic ...

However, understanding a photon’s geometry, shape, and interactions ... between light and matter, and secondly to better understand how light radiates into its nearby and distant surroundings ...

The only way scientists have been able to infer the presence of dark matter is via its interactions with gravity and the influence this has on everyday matter and light. This influence is a ...

The detection of such rare particles could open up new avenues for exploring dark matter and its interactions with the universe at large, but much work remains to be done before we can fully ...

When dark matter is clustered around a galaxy, for example, its gravitational tug can deflect ... data to pin down the exact nature of the interaction, but the fact there is any interaction ...

The only way dark matter can be inferred currently is through its interaction with gravity, with this gravitational influence literally keeping galaxies from ripping apart as they spin.

Ultrafine dark matter, millions of times lighter than electrons, could flow through the cosmos in waves. We might just have an easy way to check for tiny interactions between this dark matter and ...

Even better, the required properties of dark matter, such as its mass and interaction strength, do not conflict with any known constraints from the early universe. Dark matter of this kind appears ...

Using new imaging, Huber and his colleagues hope to uncover trails of destruction from long-ago dark matter interactions inside crystal lattice structures - a pattern of atoms found in a mineral ...