The first-ever radio signal from interstellar comet 3I/ATLAS has been detected, but it's not evidence of alien life! Discover the real science behind this celestial phenomenon.
Scientists are buzzing about the remarkable features of the interstellar comet 3I/ATLAS. Recent images from China's Tianwen 1 probe reveal stunning insights into this cosmic traveler. Discover why this comet is capturing global attention!
New images of the interstellar object 3I/ATLAS reveal surprising anomalies, including a lack of a cometary tail despite significant mass loss. Discover what this means for our understanding of space!
A groundbreaking study unveils how sub-Neptune exoplanets generate water from their rocky cores and hydrogen atmospheres, challenging previous theories about their formation. This discovery opens up new possibilities for understanding planetary diversity and the potential for life beyond Earth.
Recent findings from the LIGO-Virgo-KAGRA Collaboration reveal two groundbreaking gravitational wave events tied to unusual black hole spins, deepening our understanding of the universe's mysterious phenomena.
This week's science news unveils the origins of comet 3I/ATLAS, astonishing black hole observations, and the potential dangers of AI-designed viruses. Discover how these findings reshape our understanding of the universe and our planet!
Astronomers are uncovering the mysteries of the interstellar comet 3I/ATLAS, potentially a relic from the early Milky Way, as it speeds through our solar system. What secrets does it hold about our galaxy's past?
A groundbreaking algorithm, 'Image MM', developed by Johns Hopkins mathematician Yashil Sukurdeep, enhances ground-based telescope images by eliminating atmospheric distortion, marking a significant advancement in astronomy.
A new study reveals that the interstellar comet 3I/ATLAS is far larger and more massive than previously thought, raising questions about its nature and origin. Could it be more than just a comet?
In a groundbreaking study, scientists have measured the recoil of a newly formed black hole after a collision, revealing speeds over 50 km/s. This new method provides crucial insights into black hole mergers and their dynamics.