What do quarks, electrons, and photons have in common? They’re all part of the Standard Model - the theory that helped ...

New measurement of wobbling muons back up previous findings – potentially challenging the Standard Model of Particle Physics.

The standard model of particle physics is often illustrated as a simple grid showing the 17 basic particles (shown above). But an alternative way of visualising it reveals the complex rules that ...

Mathematical Physics, Analysis and Geometry (2016). [4] Rethinking Connes’ approach to the standard model of particle physics via non-commutative geometry. New Journal of Physics (2015).

Could New Physics Exist Below the Standard Model? Dzhulbee - Getty Images "Hearst Magazines and Yahoo may earn commission or revenue on some items through these links." ...

In the search for new particles and forces in nature, physicists are on the hunt for behaviors within atoms and molecules that are forbidden by the tried-and-true Standard Model of particle physics.

This excess of matter is not explained by the Standard Model and it existence is an important mystery in physics. In 1964, James Cronin, Valentine Fitch and colleagues at Princeton University in the ...

The most exciting possible avenue for physics beyond the standard model of particle physics has been, for years, the discrepancy in the anomalous magnetic moment of the muon. After refinement in ...

But measurements that probe structures of the universe between the CMB and low-redshift measurements are "fully consistent with standard model predictions," McCarthy said.

To understand whether this is due to physics beyond the Standard Model or underestimated uncertainties, nuclear theorists laid out a new framework needed to extract the up-down quark flavor mixing ...

“No matter what, we are discovering new physics here,” Abazajian says. “There’s nothing in the standard physics that allows for an evolving dark energy.” ...