Recently, I delved into materials related to the universe, and the more I explored, the more fascinated I became, especially fixating on the images of cosmic microwave background radiation—those ...

First, let’s discuss how cosmic microwave background radiation was discovered. Back in the 1960s, engineers Arno Penzias and Robert Wilson at Bell Labs in the United States were using a low-noise horn ...

When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works. This article was originally published at The Conversation. The publication contributed the ...

Astronomers have long thought the universe should look generally the same in every direction, but an anomaly in the radiation ...

Labroots recently covered a hibernation study that examines how this technology can potentially protect future astronauts from cosmic radiation during long-term spaceflight. But what exactly is cosmic ...

(via Sabine Hossenfelder) In the Big Bang Theory, the cosmic microwave background — microwave-range radiation that floats through the entire universe at a steady 2.7 Kelvin — is evidence that a hot ...

Could black holes help explain the origins of high-energy cosmic radiation? The universe is filled with many forms of ...

A surprising new study reveals that the first stars appeared in a pre-heated universe, challenging earlier ideas about early cosmic conditions.

The Big Bang theory is supported by the observed expansion of the universe and the cosmic microwave background radiation. The universe's early moments involved a hot, dense state with the formation of ...

When we gaze up at the night sky, we often marvel at the twinkling stars, distant planets, and expansive galaxies. Yet, beyond the visible spectrum lies a more mysterious aspect of the cosmos—cosmic ...

A new study by Rice University physicist Qimiao Si unravels the enigmatic behaviors of quantum critical metals—materials that defy conventional physics at low temperatures. Published in Nature Physics ...

Cosmic space is filled with continuous, diffuse high-energy radiation. To find out how this energy is produced, the scientists behind ESA’s Integral gamma-ray observatory have tried an unusual method: ...