Skip to main content
  1. Home
  2. Space
  3. News

Hubble observes a cluster of boulders around impacted asteroid Dimorphos

By

Last year, NASA deliberately crashed a spacecraft into an asteroid, in a first-of-its-kind test of planetary defense. At the time, telescopes around the world including the Hubble Space Telescope observed the impact between the DART spacecraft and the Dimorphos asteroid, capturing footage of the plumes of dust thrown up. Now, Hubble has observed Dimorphos once again and seen that a number of boulders have been ejected from the asteroid.

The Hubble image shown below was taken on 19 December 2022, around four months after the impact, and shows the bright streak of the asteroid across the sky, surrounded by small boulders which were knocked loose during the impact. This view was only possible after several months as the impact initially sent up large amounts of dust which made it difficult to see the asteroid in detail.

A NASA/ESA Hubble Space Telescope image of the asteroid Dimorphos taken on 19 December 2022.
This NASA/ESA Hubble Space Telescope image of the asteroid Dimorphos was taken on 19 December 2022, nearly four months after the asteroid was impacted by NASA’s DART (Double Asteroid Redirection Test) mission. Hubble’s sensitivity reveals a few dozen boulders knocked off the asteroid by the force of the collision. These are among the faintest objects Hubble has ever photographed inside the Solar System. The ejected boulders range in size from 1 metre to 6.7 metres across, based on Hubble photometry. They are drifting away from the asteroid at around a kilometre per hour. The discovery yields invaluable insights into the behaviour of a small asteroid when it is hit by a projectile for the purpose of altering its trajectory. NASA, ESA, D. Jewitt (UCLA)

Researchers observed 37 boulders in total, ranging in size from 1 to 6.7 meters. The aim of the impact was not to destroy the asteroid but to redirect it — the idea being that, in case an asteroid were threatening Earth, this method could be effective at nudging its orbit so that it would miss the planet. The recent observations also gave further confirmation that the asteroid’s trajectory around its partner asteroid, Didymos. However, to learn more about the exact effects of the impact, we will have to wait for the European Space Agency’s Hera mission, which will visit the asteroid binary to collect more data and which will launch next year.

Recommended Videos

In total, around 0.1% of the mass of the Dimorphos asteroid was displaced by the impact, with the boulders now drifting away from the asteroid. Hubble scientists explain that these are probably not made from chunks of the asteroid, but rather are boulders that were sitting on the asteroid’s surface when the impact occurred.

Related

“It’s not clear how the boulders were lifted off the asteroid’s surface,” Hubble scientists write. “They could be part of an ejecta plume that was photographed by Hubble and other observatories. Or a seismic wave from the impact may have rattled through the asteroid — like hitting a bell with a hammer — shaking loose the surface rubble.”

Editors' Recommendations

Topics
Georgina Torbet
Georgina Torbet
Space Writer
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
Hubble celebrates its 33rd birthday with stunning nebula image
Astronomers are celebrating the NASA/ESA Hubble Space Telescope’s 33rd launch anniversary with an ethereal photo of a nearby star-forming region, NGC 1333. The nebula is in the Perseus molecular cloud, and is located approximately 960 light-years away.

It will soon be the 33rd anniversary of the launch of the Hubble Space Telescope, and to celebrate this milestone, Hubble scientists have shared a stunning image taken by the telescope of a picturesque nebula. NGC 1333 is a busy stellar nursery, with new stars forming among the cloud of dust and gas located 960 light-years away.

The beautiful image of the nebula shows swirls of dark dust around glowing points of light where new stars are being born. To capture this scene, Hubble used its instruments across their full wavelengths, from ultraviolet through the optical light range and into the near-infrared. Hubble took the image using its Wide Field Camera 3 instrument, which used several filter across different wavelengths that were then assigned to colors (Blue: F475W, Green: F606W, Red: F657N and F814W) to create the colorful final result.

Read more
Hubble spots an ancient pair of supermassive black holes about to merge
This artist's concept shows the brilliant glare of two quasars residing in the cores of two galaxies that are in the chaotic process of merging. The gravitational tug-of-war between the two galaxies ignites a firestorm of star birth.

The hearts of some galaxies glow so brightly that they are given a special name: Quasars. Powered by supermassive black holes at the center of these galaxies, these regions give off tremendous amounts of light as gas falls towards the black hole and heats up, resulting in a glow as powerful as over 100 billion stars. Recently, astronomers using the Hubble Space Telescope spotted two of these quasars burning brightly in the night sky -- and they're on a collision course.

The pair of quasars, known as SDSS J0749+2255, are from some of the earliest stages of the universe when it was just 3 billion years old. The two galaxies that host the quasars are in the process of merging, and eventually, the two will come together to form one enormous galaxy.

Read more
There’s a cosmic jellyfish in this week’s Hubble image
The galaxy JW100 (lower right) features prominently in this image from the NASA/ESA Hubble Space Telescope. The streams of star-forming gas dripping from the disk of the galaxy like streaks of fresh paint are formed by a process called ram pressure stripping. Their resemblance to dangling tentacles led astronomers to refer to JW100 as a ‘jellyfish’ galaxy. JW100 is over 800 million light-years away, in the constellation Pegasus.

This week's Hubble image shows an unusual type of galaxy that might seen more at home in the ocean than among the stars: a jellyfish galaxy. These galaxies have a main body of stars, with tentacle-like structures reaching off away from the body in just one direction. This particular jellyfish galaxy, known as JW100, is located more than 800 million light-years away and is found in the constellation of Pegasus.

The jellyfish galaxy is located toward the bottom right of the image, with purple-pink tentacles of stars reaching downward. In the upper middle part of the image, you'll also see two very bright blobs, which are the core of another galaxy within the same galaxy cluster. This nearby galaxy, called IC 5338, is the brightest one within the cluster and has a large glowing area around it called a halo.

Read more