Tom Collins, research lead for discovery research at the Wellcome Trust, said: "Through tracing the earliest stages of bowel ...

Keio University astronomers measured the universe’s temperature 7 billion years ago at 5.13 K using ALMA data, which ...

Even though we can explore the universe with great precision, there is still a lot we don't know, according to Ulf Danielsson ...

A Keio University team measured the cosmic microwave background temperature from 7 billion years ago at 5.13 K using ALMA, ...

Astronomers are rethinking one of cosmology’s biggest mysteries: dark energy. New findings show that evolving dark energy models, tied to ultra-light axion particles, may better fit the universe’s ...

The energy trapped inside the black hole would then bounce outwards in a burst of expansion to form a new universe ... the ...

Very early dark energy (vEDE) may have accelerated the universe’s expansion just 380,000 years after the Big Bang, new ...

Rice University researchers have captured the temperature profile of quark-gluon plasma, the ultra-hot state of matter from ...

Astrophysicists at the University of Chicago have developed physics-based models suggesting that dark energy could be changing over time. Dark energy, the mysterious force causing the universe to ...

Prabha Karan’s Who Banged the Big Bang! is now available, offering a revolutionary perspective on the origins of the universe combined with practical guidance for personal transformation, success, and ...

The Big Bang Model has long been the cornerstone of modern cosmology, describing how the universe expanded from an incredibly hot, dense point roughly 13.8 billion years ago. Yet, while it remains ...

Our universe might not expand forever. Based on evolving data about dark energy, physicists now propose a model in which the cosmos could stop expanding and collapse into a “Big Crunch” in about 20 ...