What is matter? It’s not as basic as you’d think.
Matter can be broken down to basic atoms, but you can also go far smaller than that: baryonic matter, quantum states, dark matter, and more.
Matter can be broken down to basic atoms, but you can also go far smaller than that: baryonic matter, quantum states, dark matter, and more.
The Euclid Space Telescope will give cosmologists a new way to study and measure dark matter, dark energy, and the expanding universe.
Stanford physicists designed a mirror-studded, 3D printed camera specifically to capture quantum physics experiments.
The LUX-ZEPLIN dark matter detector ended its first experiment in April under the Black Hills of South Dakota. Did it find dark matter?
The 17-mile-long structure’s new beams are more powerful, which physicists anticipate will reveal more of the subatomic universe.
Beam me up! The Large Hadron Collider, the biggest particle accelerator on the planet, restarted on April 22 after the longest shutdown in its 14-year history.
Mysteriously large black holes could be primordial, meaning they were formed in the early universe and predate the first stars.
Once-fringe dark matter candidates, called axions, have moved into the limelight, as scientists hope new experiments will detect them.
Observations by NASA’s recently launched James Webb Space Telescope could hint that many black holes formed during the birth of the universe.
Astronomers found the best evidence yet for a galaxy without dark matter. This discovery could reshape how scientists think galaxies form.