When we go backwards in time through the history of the cosmos, the distances and volumes shrink, while the average energy ...

These are big, literally cosmic questions, and astronomers continue to struggle to nail down the answers. Different ...

Roughly 400,000 years after the Big Bang, the universe cooled just enough to allow photons to escape from the primordial ...

Our knowledge of physics — gained through astrophysical experiments, or in laboratories via machines such as particle ...

The powerful space telescope, with its ability to observe ancient galaxies in the first billion years after the Big Bang ...

In a groundbreaking discovery, the James Webb Space Telescope (JWST) has presented data that directly challenges our current ...

However, the new model proposed by Durham astrophysicists focuses on another key aspect: how dark energy, a mysterious force ...

The mystery of the universe’s accelerated expansion remains one of the great enigmas of modern physics. Twenty-five years ago ...

Based on an experiment at CERN, a collaboration led by the Niels Bohr Institute, University of Copenhagen, can predict hitherto unchartered changes in the shape of nuclei.

How did supermassive black holes get big so fast? Astrophysicist Souphie Koudmani tells us how she and her colleagues are finding out.

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

As pretty much the ultimate evolution of the skyblock ... but it certainly tries. With big hitters from Ad Astra to Thermal Expansion and piles of quality of life (which are a lot more necessary ...