الأربعاء، 5 أكتوبر 2022

NEWS TECHNOLOGIE

Astronomers using the NSF’s NOIRLab’s SOAR telescope in Chile captured the vast plume of dust and debris blasted from the surface of the asteroid Dimorphos by NASA’s DART spacecraft when it impacted on 26 September 2022. In this image, the more than 10,000 kilometer long dust trail — the ejecta that has been pushed away by the Sun’s radiation pressure, not unlike the tail of a comet — can be seen stretching from the center to the right-hand edge of the field of view.

NASA made history last month when it successfully slammed the DART spacecraft into an asteroid known as Dimorphos. DART, or the Double Asteroid Redirection Test, was the first-ever demonstration of planetary defense technology. With the impact over, scientists around the world have turned their telescopes toward the space rock to survey the aftermath. The latest observations show Dimorphos has grown an enormous comet-like tail of debris.

DART was not a particularly large spacecraft. It was about the size of a vending machine; little more than a camera with an ion engine attached. Its goal was simply to collide with Dimorphos, which is a small 170-meter asteroid orbiting a larger space rock called Didymos in a binary system. Studying the way its orbit changed following the impact will help scientists understand what it would take to deflect a dangerous asteroid from hitting Earth.

The image above comes from the SOAR telescope in Chile, showing a tail more than 6,000 miles (10,000 kilometers) long. This is all material that was blown off the surface of Dimorphos by the DART impact. In a separate observation, the CFH telescope spotted the tail when it was a bit shorter in the days immediately following the collision. The material is being pushed away from the asteroids by the solar wind, making the object look almost like a comet.

In just the last few years, our assumptions about the nature of asteroids have been challenged. NASA’s OSIRIS-REx mission found the asteroid Bennu to be much craggier than expected, and there’s evidence it may be partially hollow or loosely packed, like a giant gravel pile. Observations like the ones from SOAR and CFHT may help characterize the debris. Did DART only blast surface dust away, or did Dimorphos lose larger chunks of regolith? This is key to the goal of understanding and stopping dangerous space rocks in the future.

The European Space Agency (ESA) will send a mission called Hera to investigate Dimorphos up close after the dust settles. It will launch in October 2024 and is expected to rendezvous with Dimorphos late in 2026. This will be the first time two different missions have traveled to the same asteroid, making Dimorphos the most studied asteroid in history. Assuming, of course, it’s still in one piece. Some early analysis suggested it might be left unrecognizable after the impact.

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