The team has used neutron scattering to observe emergent photons in cerium zirconate. (Courtesy: Angelika Bosak/TU Wien) New ...

Researchers from Okinawa Institute of Science and Technology outline a strategy for using machine learning (ML) to address ...

Dark matter, although not visible, is believed to make up most of the total mass of the universe. One theory suggests that ultralight dark matter behaves like a continuous wave, which could exert ...

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

If photons possess more quantum states than expected, it would overhaul our understanding of all particle physics – and now physicists have identified a way to test this radical idea in an ...

An extremely bold hypothesis proposes transient temporal singularities remove the need for dark matter and dark energy.

IFLScience traveled to CERN to get an exclusive insight into the crucial theory of particle physics, its limitations, and what might lie beyond.

The new model forgoes the need for either dark matter or dark energy as explanations for the universe's acceleration and how structures like galaxies are generated.

Frank Close tells us about the history of particle physics, and what it means that charge in our universe's matter is so closely balanced.

The priorities include a powerful new particle accelerator that could be set up at Fermilab, a telescope to observe the oldest light in the universe, and research to learn more about mysteries ...

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 ...