This isn’t how our universe works. Our observable universe, a sphere of radius about 46.5 billion light years (enlarged from ...

Primordial black holes may be exploding throughout the universe. If we can catch them in the act, it could pave the way to ...

Research on trace anomaly in nucleons and pions uncovers mass distribution patterns, crucial for understanding quark binding ...

Do you know which are the most abundant particles in the universe? It is neutrinos — small, chargeless, and nearly massless ...

At one extreme, you’ve got the weird rules of quantum physics that deal with subatomic particles. At the other extreme ... tiny irregularities involving quantum effects in the earliest days of the ...

Volker D. Burkert (Courtesy of Jefferson Lab) The U.S. Department of Energy’s Thomas Jefferson National Accelerator Facility ...

A recent study has proposed a new mechanism for the formation of primordial black holes that could provide answers about dark matter.

Johnson. “Dr. Speller not only explores the secrets of the universe but also shares them through science outreach and ...

Supermassive black holes (SMBHs) can have billions of solar masses, and observational evidence suggests that all large ...

An elusive particle that first formed in the hot, dense maelstrom of the early universe has puzzled physicists for decades.

Alexander Lenz argues that the charm quark is an experimental and theoretical enigma that has the potential to shed light on ...