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Space Science Digital > Blog > News > New results from NASA’s DART planetary defense mission confirm we could deflect deadly asteroids
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New results from NASA’s DART planetary defense mission confirm we could deflect deadly asteroids

By Jayden Hanson March 4, 2023 10 Min Read
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Contents
Small asteroids could be dangerous, but hard to spotThe DART missionA self-steering spacecraftDangerous debrisA bigger than expected resultA first success
New results from NASA's DART planetary defence mission confirm we could deflect deadly asteroids
CTIO / NOIRLab / SOAR / NSF / AURA/ T. Kareta (Lowell Observatory), M. Knight. Credit: US Naval Academy

What would we do if we spotted a hazardous asteroid on a collision course with Earth? Could we deflect it safely to prevent the impact?

Last year, NASA’s Double Asteroid Redirection Test (DART) mission tried to find out whether a “kinetic impactor” could do the job: smashing a 600kg spacecraft the size of a fridge into an asteroid the size of an Aussie Rules football field.

Early results from this first real-world test of our potential planetary defense systems looked promising. However, it’s only now that the first scientific results are being published: five papers in Nature have recreated the impact, and analyzed how it changed the asteroid’s momentum and orbit, while two studies investigate the debris knocked off by the impact.

The conclusion: “kinetic impactor technology is a viable technique to potentially defend Earth if necessary”.

Small asteroids could be dangerous, but hard to spot

Our solar system is full of debris, left over from the early days of planet formation. Today, some 31,360 asteroids are known to loiter around Earth’s neighborhood.

Although we have tabs on most of the big, kilometer-sized ones that could wipe out humanity if they hit Earth, most of the smaller ones go undetected.

Just over ten years ago, an 18-meter asteroid exploded in our atmosphere over Chelyabinsk, Russia. The shockwave smashed thousands of windows, wreaking havoc and injuring some 1,500 people.

A 150-meter asteroid like Dimorphos wouldn’t wipe out civilization, but it could cause mass casualties and regional devastation. However, these smaller space rocks are harder to find: we think we have only spotted around 40% of them so far.

The DART mission

Suppose we did spy an asteroid of this scale on a collision course with Earth. Could we nudge it in a different direction, steering it away from disaster?

Hitting an asteroid with enough force to change its orbit is theoretically possible, but can it actually be done? That’s what the DART mission set out to determine.

Specifically, it tested the “kinetic impactor” technique, which is a fancy way of saying “hitting the asteroid with a fast-moving object”.

The asteroid Dimorphos was a perfect target. It was in orbit around its larger cousin, Didymos, in a loop that took just under 12 hours to complete.

The impact from the DART spacecraft was designed to slightly change this orbit, slowing it down just a little so that the loop would shrink, shaving an estimated seven minutes off its round trip.

A self-steering spacecraft

For DART to show the kinetic impactor technique is a possible tool for planetary defense, it needed to demonstrate two things:

  • that its navigation system could autonomously maneuver and target an asteroid during a high-speed encounter

  • that such an impact could change the asteroid’s orbit.

In the words of Cristina Thomas of Northern Arizona University and colleagues, who analyzed the changes to Dimorphos’ orbit as a result of the impact, “DART has successfully done both”.

The DART spacecraft steered itself into the path of Dimorphos with a new system called Small-body Maneuvering Autonomous Real Time Navigation (SMART Nav), which used the onboard camera to get into a position for maximum impact.

More advanced versions of this system could enable future missions to choose their own landing sites on distant asteroids where we can’t image the rubble-pile terrain well from Earth. This would save the trouble of a scouting trip first!

Dimorphos itself was one such asteroid before DART. A team led by Terik Daly of Johns Hopkins University has used high-resolution images from the mission to make a detailed shape model. This gives a better estimate of its mass, improving our understanding of how these types of asteroids will react to impacts.

New results from NASA's DART planetary defence mission confirm we could deflect deadly asteroids
Asteroid statistics and the threats posed by asteroids of different sizes. Credit: NASA’s DART press brief

Dangerous debris

The impact itself produced an incredible plume of material. Jian-Yang Li of the Planetary Science Institute and colleagues have described in detail how the ejected material was kicked up by the impact and streamed out into a 1,500km tail of debris that could be seen for almost a month.

Streams of material from comets are well known and documented. They are mainly dust and ice, and are seen as harmless meteor showers if they cross paths with Earth.

Asteroids are made of rockier, stronger stuff, so their streams could pose a greater hazard if we encounter them. Recording a real example of the creation and evolution of debris trails in the wake of an asteroid is very exciting. Identifying and monitoring such asteroid streams is a key objective of planetary defense efforts such as the Desert Fireball Network we operate from Curtin University.

A bigger than expected result

So how much did the impact change Dimorphous’ orbit? By much more than the expected amount. Rather than changing by seven minutes, it had become 33 minutes shorter!

This larger-than-expected result shows the change in Dimorphos’ orbit was not just from the impact of the DART spacecraft. The larger part of the change was due to a recoil effect from all the ejected material flying off into space, which Ariel Graykowski of the SETI Institute and colleagues estimated as between 0.3% and 0.5% of the asteroid’s total mass.

A first success

The success of NASA’s DART mission is the first demonstration of our ability to protect Earth from the threat of hazardous asteroids.

At this stage, we still need quite a bit of warning to use this kinetic impactor technique. The earlier we intervene in an asteroid’s orbit, the smaller the change we need to make to push it away from hitting Earth. (To see how it all works, you can have a play with NASA’s NEO Deflection app.)

But should we? This is a question that will need answering if we ever do have to redirect a hazardous asteroid. In changing the orbit, we’d have to be sure we weren’t going to push it in a direction that would hit us in future too.

However, we are getting better at detecting asteroids before they reach us. We have seen two in the past few months alone: 2022WJ1, which impacted over Canada in November, and Sar2667, which came in over France in February.

We can expect to detect a lot more in future, with the opening of the Vera Rubin Observatory in Chile at the end of this year.

More information:
R. Terik Daly et al, Successful Kinetic Impact into an Asteroid for Planetary Defense, Nature (2023). DOI: 10.1038/s41586-023-05810-5

Andrew F. Cheng et al, Momentum Transfer from the DART Mission Kinetic Impact on Asteroid Dimorphos, Nature (2023). DOI: 10.1038/s41586-023-05878-z

Cristina A. Thomas et al, Orbital Period Change of Dimorphos Due to the DART Kinetic Impact, Nature (2023). DOI: 10.1038/s41586-023-05805-2

Jian-Yang Li et al, Ejecta from the DART-produced active asteroid Dimorphos, Nature (2023). DOI: 10.1038/s41586-023-05811-4 Ariel

Graykowski et al, Light Curves and Colors of the Ejecta from Dimorphos after the DART Impact, Nature (2023). DOI: 10.1038/s41586-023-05852-9

Provided by
The Conversation


This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation

Citation:
New results from NASA’s DART planetary defense mission confirm we could deflect deadly asteroids (2023, March 4)
retrieved 5 March 2023
from https://phys.org/news/2023-03-results-nasa-dart-planetary-defense.html

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.



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TAGGED: asteroids, confirm, DART, deadly, defense, deflect, Mission, NASAs, planetary, results

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