The CMS Collaboration has shown, for the first time, that machine learning can be used to fully reconstruct particle ...

Two independent lines of evidence from the world’s most powerful particle experiments are converging on the same ...

Physicists in Germany have carried out the most accurate measurement to date of the width of the proton. By examining a previously unexplored energy-level transition in the hydrogen atom, Lothar ...

The research team used two distributed sensors and leveraged two quantum resources for increasing detection sensitivity: ...

Scientists say an ultra-powerful neutrino once thought impossible may be explained by an exotic black hole model involving a so-called “dark charge.” ...

New research using a space-time phenomenon predicted by Einstein presents evidence that the invisible backbone of the ...

The discovery of the Higgs boson hasn’t led to a explosion of new physics. Now, some scientists think that hidden physics may ...

After years of confusion, a new study confirms the proton is tinier than once thought. That enables a test of the standard model of particle physics.

Modern physics relies on "Dark Energy," "Dark Matter," and over 20 arbitrary tuning parameters to explain the universe. A comprehensive AI-driven audit performed by Gemini Pro on 20 technical papers ...

Neutrino particles have extremely small masses, yet there are so many of them that they carve out the large-scale structure ...

In 1930, a young physicist named Carl D. Anderson was tasked by his mentor with measuring the energies of cosmic rays—particles arriving at high speed from outer space. Anderson built an improved ...