周一 · 知古通今| 周二 · 牧夫专栏 周三 · 视频天象 | 周四 · 观测指南 周五 · 深空探测 | 周六 · 茶余星话 | 周日 · 太空探索编译：王茸校对：蔡贺菁 王婧彧审阅：李宜骅美编：毫秒原文链接： https://www.space ...

Researchers propose that hydrogen gas from the early Universe emitted detectable radio waves influenced by dark matter.

Dark matter has two central properties: it has mass like regular matter, and unlike regular matter, it reacts weakly or not at all with light. Neutrinos satisfy these two criteria, but neutrinos move ...

UChicago-led study analyzes massive galaxy clusters mapped by the Dark Energy Survey, offers new way to probe cosmic laws ...

Astronomers have unveiled a new catalog of massive galaxy clusters, revealing new insight on the evolution of the universe ...

Not just the universe as we see it, but the universe as we try to comprehend it ... “The arguments in favour of new physics and the demands to rethink cosmology should not detract from the ...

Tel Aviv scientists predict ancient radio signals from the early Universe that could reveal how dark matter shaped stars and ...

On human timescales, the universe may as well be eternal. It’ll be here long after our species and our planet are gone, but ...

Explore the universe with multi-messenger astronomy, combining light, gravitational waves, neutrinos, and cosmic rays for a complete view.

A faint radio "whisper" from ancient hydrogen reveals the universe was heating up long before it filled with starlight.

Our Universe was 'pre-heated' in its early moments, according to a new study from the International Centre of Radio Astronomy Research (ICRAR), challenging assumptions it emerged from an ultracold ...

NASA’s Hubble Space Telescope has made a significant breakthrough in the field of astronomy by refining the age of the ...