Watching for changes in the Red Planet’s orbit over time could be a new way to detect passing dark matter. MIT physicists ...

New simulations suggest that there are enough primordial black holes—potential dark matter candidates—in the universe for one ...

"Primordial black holes do not live in the solar system. Rather, they're streaming through the universe, doing their own ...

A new study suggests that the Sun may have had a close encounter with another star, explaining the unusual orbits of objects ...

New evidence suggests that billions of years ago, a star may have passed very close to our solar system. As a result, ...

They found that if a primordial black hole came within a few hundred million miles of Mars, it could cause a slight “wobble” ...

Our solar system might still bear the scars from an extremely close shave with an alien star. Such an encounter – the closest pass we know of – would have shaken up objects on the outskirts and might ...

coalescing in orbit over months or years. A new simulation ... Comet Impacts Formed Continents When Solar System Entered Arms of Milky Way Aug. 24, 2022 — New research has found evidence that ...

Protoplanetary disk. Figure from a computer simulation visualizing the formation of planets ( Photo: NASA/JPL-Caltech.August ...

Watching for changes in Mars’ orbit over time could be new way to detect passing dark matter, according to MIT researchers.

Watching for changes in Mars' orbit over time could be new way to detect passing dark matter, according to researchers.