Physicists have used a machine-learning method to identify surprising new twists on the non-reciprocal forces governing a many-body system.

Electron–phonon interactions in a material have been modelled by combining billions of Feynman diagrams. Using a modified form of the Monte Carlo method, Marco Bernardi and colleagues at the ...

The experiment showed that Bohr was definitely correct when he argued for complementarity, and that Einstein had got it wrong. The more atom-rustling that was measured, the weaker the diffraction ...

Overcoming discrimination in a mostly male preserve, she did groundbreaking work that showed experimentalist physicists where ...

The British Science Festival (BSF) takes place in Liverpool from Wednesday 10 to Sunday, 14 September, offering five days of talks, workshops, performances and installations at cultural venues across ...

The research, supported by the Istituto Nazionale di Fisica Nucleare, shows that even an experiment with a clear mission in ...

An invisible force has long eluded detection within the halls of the world’s most famous particle accelerator—until now.

After six years of collecting data, the muon g-2 experiment released its results and could chart a new path for particle physics.

Discover the fascinating world of particle physics — the most fundamental building blocks of the universe and the forces that connect them.

Researchers have developed a novel high-energy particle detection instrumentation approach that leverages the power of quantum sensors -- devices capable of precisely detecting single particles.

An international collaboration has shown that additive manufacturing offers a realistic way to build large-scale plastic scintillator detectors for particle physics experiments.