Most of the universe is made of dark matter and dark energy, yet scientists still don’t know what either one is. New ultra-sensitive detectors are being built to spot incredibly rare particle ...

Columnist Natalie Wolchover checks in with particle physicists more than a decade after the field entered a profound crisis.

Quantum physics paints a strange picture of the world, one filled with spooky connections, unsettling uncertainties ...

Shock wave dynamics and particle interaction constitute a rapidly evolving field that bridges high-speed fluid dynamics with particulate matter behaviour in a variety of industrial and natural ...

BERLIN, Germany – January 17, 2026 — Neutrinovoltaic, a Berlin-based research and information platform focused on neutrinovoltaic energy concepts, released an informational update summarizing ...

A single subatomic particle that hit Earth in 2023 carried roughly 100,000 times more energy than anything humanity has ever ...

Neutrinos are one of the most elusive and omnipresent particles in the universe. Their strange properties may explain why the amounts of matter and antimatter in our universe aren’t equal, as most ...

Somehow, neutrinos went from just another random particle to becoming tiny monsters that require multi-billion-dollar facilities to understand. And there’s just enough mystery surrounding them that we ...

Astronomers found evidence that dark matter and neutrinos may interact, hinting at a "fundamental breakthrough" that challenges our understanding of how the universe evolved.

Nearly everything in the universe is made of mysterious dark matter and dark energy, yet we can’t see either of them directly. Scientists are developing detectors so sensitive they can spot particle ...

Electromagnetism and the weak nuclear force are two distinct fundamental forces. That wasn’t always the case. How many fundamental forces are there in our universe? For particle physicists, answering ...