Chery UAE conducts a durability test for the TIGGO 9 chassis, inviting media professionals and influencers to attempt to damage it.

JETOUR secures the top position among Chinese auto brands in the Middle East, selling over 20,000 units in the first four months of 2025

The UAE experiences extreme heat, with temperatures reaching 50°C, accompanied by dust storms and rough sea conditions

Abu Dhabi Police have introduced the Eneron Magnus, a domestically produced, supercharged patrol vehicle designed to enhance operational capabilities

New data suggests unknown physics aids dark energy in slowing cosmic structure growth, beyond ΛCDM predictions. This hints at new forces or errors, challenging our understanding of the universe’s expansion.

New research suggests many dark matter halos might exist without galaxies, like cosmic Easter eggs. These “dark” halos affect gravity and could be detected via gravitational lensing soon.

A new cosmic model replaces dark matter and dark energy with brief, undetectable bursts called transient temporal singularities that drive expansion and structure formation without violating physics laws.

Scientists modeled black holes without singularities by changing Einstein’s equations, predicting a static core and matter exiting through a white hole. This links to quantum gravity, gravitational waves, and tiny black holes as dark matter candidates.

New research shows black hole gravitational waves (QNMs) interact in complex ways, revealing hidden details about black hole structure and spacetime. These findings could improve black hole models and hint at new physics.

Scientists achieved the most precise models of gravitational waves from black holes flying past each other, using advanced math like Calabi–Yau shapes, improving predictions for future detectors like LISA and the Einstein Telescope.

AI called Urania created 50 new gravitational wave detectors that outperform human designs, improving sensitivity and detecting more cosmic events. These could upgrade current tools to better study black holes, neutron stars, and the universe’s expansion.

AI improves old solar data to match new, boosting detail and consistency across decades. This helps scientists better study the sun’s evolution and magnetic activity by unifying diverse observations, says a new Nature Communications study.

The Daniel K. Inouye Solar Telescope’s new Visible Tunable Filtergraph captures detailed images of sunspots and solar eruptions by analyzing sunlight’s spectrum, helping scientists study the sun’s plasma and magnetic fields with unprecedented precision.

Elon Musk is leaving the federal government. What's next for DOGE?

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Using a new adaptive optics system on the Goode Solar Telescope, scientists captured the sharpest-ever images of the sun’s corona, revealing coronal rain, a never-seen plasmoid, and intricate prominences—unlocking new insights into solar physics.

Seismic data from Mars suggests liquid water may exist 3.4–5 miles underground. Slowed seismic waves point to water-saturated basalt layers. This finding, though localized, supports theories of deep Martian aquifers and potential habitability.

Seismic data from NASA’s InSight mission suggests liquid water may exist 6–12 miles beneath Mars’ surface. Researchers found matching wave patterns in wet Earth rocks, hinting at deep underground water that could potentially support microbial life.

Scientists debate if Mars holds underground water. A 2024 study suggested water-saturated crust, but new analysis proposes it could be dry or icy. Data is inconclusive, keeping the mystery of Mars' lost water unresolved.

Dark streaks on Mars, once thought to be signs of flowing water, are now believed to result from dry dust avalanches triggered by wind and impacts, not liquid water, according to a new study using machine learning and satellite data.