Researchers in the United States’ Fermilab moved the final subdetector for Mu2e into the ...

In 2023, a detector buried off the Mediterranean Sea spotted an impossibly powerful neutrino signal—tens of thousands of times more energetic than anything produced by humanity’s most powerful ...

Dr. Stefan Schoppmann, a particle physicist at Johannes Gutenberg University Mainz (JGU), has received the ICFA Early Career ...

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

The Pauli exclusion principle is a cornerstone of the Standard Model of particle physics and is essential for the structure ...

A high-precision experiment is hunting for a forbidden particle flip that could expose new physics hiding in plain sight.

Physicists think a 2023 particle detection marks the first exploding black hole seen. If true, it rewrites our understanding of dark matter.

On 9 July 1925, Heisenberg sent a paper titled ‘Quantum-theoretical re-interpretation of kinematic and mechanical relations’ to Max Born, whom he was assisting at that time, and Born sent the paper to ...

They shaped the Universe, yet the first stars ever born continue to evade the searches of astronomers like Dr Emma Chapman ...

A neutrino slammed into Earth in 2023 with so much energy that it looked almost unreal. The particle carried about 220 peta–electron volts, or PeV, making it the most energetic neutrino ever reported.

Researchers at MIT have developed a magnetically actuated mixing platform that integrates directly into standard extrusion 3D bioprinters.