This video turns subatomic particles into a chaotic ranking of the tiny pieces that build reality. It breaks down quarks, ...
Instead of a total decommission, the collider is now on schedule to begin receiving upgrades that will transform it into an ...
By remotely accessing an IBM quantum computer, a research scientist at Lawrence Berkeley National Laboratory has successfully ...
Head to Switzerland for a tour of CERN, the world’s largest particle physics research laboratory, to discover the secrets of ...
The U.S. and China are racing to develop computers based on the properties of quantum physics – with implications for science ...
Noether's work helped prove the conservation of energy in physics, a key foundation for Einstein's theory of relativity ...
Quantum technology is poised to permeate all corners of the global economy by dramatically changing the way the world ...
The Nobel-prize-winning Belgian theoretical physicist François Englert, whose work led to the discovery of the Higgs boson, died on 18 June at the age of 93.
Here’s what you’ll learn when you read this story: For decades, every known atomic and nuclear system has relied on at least two fundamental forces working in concert: the strong force binds protons ...
Muons are one of the key subatomic particles for discovering new physics, but tracking them after particle collisions can be difficult and prone to error. A new study ...
In July 2012, physicists at the Large Hadron Collider (LHC) in Europe triumphantly announced the discovery of the Higgs boson, the long-sought linchpin of the subatomic world. Interacting with Higgs ...
Neutrinos have been with us since the beginning. They existed alongside prehistoric humans, dinosaurs and the first scattered crumbs of life on Earth. The birth of the solar system, the formation of ...