NASA - Double Asteroid Redirection Test (DART) logo.
Oct. 12, 2022
The kinetic impact of NASA’s DART spacecraft with the Dimorphos asteroid around its larger Didymos parent body has succeeded in shifting its orbit, meaning humankind’s first planetary defence test has been successful. Observations are continuing of the debris plume caused by the collision for as long as possible, as the asteroid system gradually recedes from Earth.
LICIACube image of asteroid ejecta
As a next step ESA’s Hera mission will return to the double asteroid system to investigate the consequences of the impact, gathering close-up data to turn this experiment in a scalable, repeatable technique that might one day be used for real.
Hubble captures DART impact
“The next mission to fly to the Didymos system is going to be the Hera mission, planned by ESA, a multinational endeavour to go back to the system and get a chance to look at it again a little later on,” commented Lori Glaze, Lori Glaze, Director of NASA’s Planetary Science Division.
Prior to DART’s impact, it took Dimorphos 11 hours and 55 minutes to orbit its larger parent asteroid, Didymos. Since DART’s intentional collision with Dimorphos on 26 September, astronomers have been using telescopes on Earth to measure how much that time has changed.
DART's moment of impact
Now, the investigation team has confirmed the spacecraft’s impact altered Dimorphos’ orbit around Didymos by 32 minutes, shortening the 11 hour and 55-minute orbit to 11 hours and 23 minutes. This measurement has a margin of uncertainty of approximately plus or minus 2 minutes.
Before its encounter, NASA had defined a minimum successful orbit period change of Dimorphos as change of 73 seconds or more. This early data show DART surpassed this minimum benchmark by more than 25 times. The investigation team is still acquiring data with ground-based observatories around the world – as well as with radar facilities at NASA Jet Propulsion Laboratory’s Goldstone planetary radar in California and the National Science Foundation’s Green Bank Observatory in West Virginia. They are updating the period measurement with frequent observations to improve its precision.
Streams of material from Dimorphos forming a comet-like tail
Focus now is shifting toward measuring the efficiency of momentum transfer from DART’s roughly 6.1-km-per-second collision with its target. This includes further analysis of the ‘ejecta’ – the many tons of asteroidal rock displaced and launched into space by the impact. The recoil from this blast of debris substantially enhanced DART’s push against Dimorphos – a little like a jet of air streaming out of a balloon sends the balloon in the opposite direction.
To successfully understand the effect of the recoil from the ejecta, more information on of the asteroid’s physical properties, such as the characteristics of its surface, and how strong or weak it is, is needed. These issues are still being investigated.
For this analysis, astronomers will continue to study imagery of Dimorphos from DART’s terminal approach and from the Light Italian CubeSat for Imaging of Asteroids (LICIACube), provided by the Italian Space Agency, to approximate the asteroid’s mass and shape.
Hera's propulsion module taking shape
Then, in exactly two years from now, ESA’s Hera spacecraft will embark on its own voyage to Didymos and Dimorphos to carry out detailed surveys of both Dimorphos and Didymos, with a particular focus on the crater left by DART’s collision and a precise measurement of Dimorphos’ mass, which is needed to determine the efficiency of the DART impact.
Hera’s payload module is currently under construction at OHB in Germany, with its propulsion module taking shape at Avio in Italy. The spacecraft will also carry two shoebox-sized CubeSats for close-up observations.
Hera scans DART’s impact crater
Ian Carnelli, Hera project manager, commented: “Now that the DART mission has achieved its objective, it is up to the Hera mission to complete the experiment. The whole Hera team in ESA and industry is working around the clock to meet the launch date in October 2024. Seeing our spacecraft and payload in integration gives us confidence We are eager to provide our scientific community with the data necessary to unveil all the mysteries DART is exposing.”
DART asteroid impact impresses in ESA’s view from the ground
ESA contributions to DART effort
Over the course of DART’s impact, ESA’s Near-Earth Object Coordination Centre was watching. With access to telescopes around the globe, ESA’s astronomers had a direct view of the asteroid system as DART struck, capturing this remarkable footage of the birth of Dimorphos’ new plume.
After DART comes Hera
In the run-up to impact, ESA was also laser-focused on this world first mission. The Agency’s Estrack network of deep space antennas supported NASA’s own, filling in gaps in the Deep Space Network to ensure tracking and data download from DART was seamless, and the mission could lock on to its relatively tiny target at vast speed.
Related articles:
NASA Confirms DART Mission Impact Changed Asteroid’s Motion in Space
https://orbiterchspacenews.blogspot.com/2022/10/nasa-confirms-dart-mission-impact.html
Webb and Hubble Capture Detailed Views of DART Impact
https://orbiterchspacenews.blogspot.com/2022/09/webb-and-hubble-capture-detailed-views.html
First Images from Italian Space Agency’s LICIACube Satellite
https://orbiterchspacenews.blogspot.com/2022/09/first-images-from-italian-space-agencys.html
Hera team congratulates NASA asteroid impactors
https://orbiterchspacenews.blogspot.com/2022/09/hera-team-congratulates-nasa-asteroid.html
NASA’s DART Mission Hits Asteroid in First-Ever Planetary Defense Test
https://orbiterchspacenews.blogspot.com/2022/09/nasas-dart-mission-hits-asteroid-in.html
Related links:
NASA’s DART: https://dart.jhuapl.edu/
ESA’s Hera mission: https://www.esa.int/Space_Safety/Hera
LICIACube: https://www.asi.it/en/planets-stars-universe/solar-system-and-beyond/liciacube/
OHB: https://www.ohb.de/
Avio: https://www.avio.com/
ESA’s Near-Earth Object Coordination Centre: https://neo.ssa.esa.int/
Estrack: https://www.esa.int/Enabling_Support/Operations/ESA_Ground_Stations/Estrack_ground_stations
Space Safety: https://www.esa.int/Space_Safety
Images, Animation, Videos, Text, Credits: ESA/ASI/NASA/APL/STScI/CTIO/NOIRLab/SOAR/NSF/AURA/T. Kareta (Lowell Observatory), M. Knight (US Naval Academy)/Avio/ESA/Science Office.
Best regards, Orbiter.ch
