At the world’s most powerful colliders, physicists are finally catching sight of particles that almost never leave a trace, a ...

For much of the twentieth century, scientists expected the expanding universe to slow over time. The opposite turned out to be true. Space is stretching faster today than in the past, and the precise ...

Scientists are testing a novel way to measure cosmic expansion using time delays in gravitationally lensed quasars. Their ...

New Ph.D. Shaan Patel reflects on the research, mentors and discoveries that shaped his astrophysics path at UTA ...

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

Two new awards totaling $4.8 million will fund next-generation instruments for mid-sized telescopes at Lick and McDonald Observatories, enabling researchers to study how planets and stars form. The ...

Based on a list compiled by the American Institute of Physics, UNG had 19 physics graduates in 2023-24. As impressive as ...

Neutrinos – you may have heard of them referred to as "ghost particles" – pass through everything because they are extremely ...

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

In the leading model of cosmology, most of the universe is invisible: a combined 95% is made of dark matter and dark energy.

A 20-year-old planetarium, never used before, rediscovered by accident, now helps students explore constellations from new perspectives.

A small star named M82 X-2 breaks physical barriers, as NASA's NuSTAR confirms it shines 10 million times brighter than the ...