Scientists hunted dark matter and solar neutrinos with one of the largest experiments yet. While the neutrinos likely ...

A new joint analysis from the NOvA and T2K experiments offers the most precise look yet at neutrino behavior, bringing ...

In the end, the Universe becomes a place where gravity and quantum physics slowly turn all mass into faint streams of particles.

Knotted structures once imagined by Lord Kelvin may actually have shaped the universe’s earliest moments, according to new ...

Why did Ramanujan’s formulae stay relevant for a century? His set of 17 expressions offered huge speed. They gave long digit ...

There is an important and unresolved tension in cosmology regarding the rate at which the universe is expanding, and ...

Two papers challenged the existence of theorized particles called sterile neutrinos that might account for mysteries like the ...

A team of astronomers using a variety of ground and space-based telescopes including the W. M. Keck Observatory on Maunakea, ...

A joint effort between two of the world’s largest neutrino experiments has brought scientists closer to understanding how the ...

SQUIRE aims to detect exotic spin-dependent interactions using quantum sensors deployed in space, where speed and ...

In this video, we explore the fundamental question: Why is there something rather than nothing? Using a Socratic approach, we ...

A new study reveals that Srinivasa Ramanujan’s century-old formulas for calculating pi unexpectedly emerge within modern theories of critical phenomena, turbulence, and black holes. In school, many of ...