On June 5, Japan's RESILIENCE lander crash-landed on the Moon, confirmed by NASA's Lunar Reconnaissance Orbiter. This marks ispace's second attempt failure, raising questions about future lunar missions.
A new study challenges previous claims of life signs on K2-18b, revealing complexities in the search for extraterrestrial biosignatures. Discover the ongoing scientific debate and what it means for future explorations.
A groundbreaking AI study reveals that the mysterious dark streaks on Mars may be caused by wind and dust, not ancient water, reshaping our understanding of the planet's surface and exploration priorities.
A groundbreaking study using machine learning on over 86,000 Mars images concludes that the dark streaks on Martian slopes are likely due to dry dust slides, not flowing water as previously thought. This discovery alters our understanding of potential habitability on Mars.
A groundbreaking study suggests that the mysterious streaks on Mars, once thought to indicate liquid water, are actually formed by wind and dust. This could reshape our understanding of Martian geology and future exploration.
In a groundbreaking achievement, NASA's Perseverance rover has detected auroras on Mars for the first time, thanks to a solar flare and coronal mass ejection. This discovery opens up new frontiers for future Martian exploration and research.
A groundbreaking study reveals seismic evidence of a vast reservoir of liquid water hidden beneath Mars' surface, potentially reshaping our understanding of the Red Planet and its ancient ecosystems.
The Trump administration proposes a staggering $6 billion cut to NASA's budget for 2026, the largest in history, jeopardizing key space missions and programs. Find out how this could impact future exploration efforts!
A new study shows that lichens, known for their resilience, may survive on Mars despite harsh conditions. Researchers found that certain lichen species can maintain metabolic activity in extreme environments, paving the way for future exploration.
A decade of Hubble observations reveals Uranus takes 17 hours, 14 minutes, and 52 seconds to rotate. This new data, 28 seconds longer than previous estimates, may reshape our understanding of the ice giant's geography and future missions.
