Members of the STAR collaboration, a group of physicists collecting and analyzing data from particle collisions at the ...

Results from the LUX-ZEPLIN experiment, co-founded by UC Santa Barbara physicists, mark a major step in defining what dark matter can — and cannot — be ...

Determining the nature of dark matter, the invisible substance that makes up most of the mass in our universe, is one of the ...

The LUX-ZEPLIN detector is breaking new ground in the hunt for dark matter, setting unprecedented limits on WIMP particles.

Closing in on the nature of dark matter, experiments conducted in an underground cavern help resolve one of the leading ...

This blog explores whether teleportation will ever become a reality or if it will remain firmly a science-fiction fantasy, by ...

Virtual particles may not be real, but they help physicists track how forces move, and allow for incredibly precise ...

Determining the nature of dark matter, the invisible substance that makes up most of the mass in our universe, is one of the greatest puzzles in physics.

Determining the nature of dark matter, the invisible substance that makes up most of the mass in our universe, is one of the greatest puzzles in ...

If ultimately true, the universe will reach its maximum size around 11 billion years from now. At that point, physics (and ...

For more than three decades, the scientific consensus on the composition of the universe has rested on a foundation both elegant and perplexing: that roughly 95% of all that exists is made up of ...