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Particle Plumes Discovered Erupting from Asteroid Bennu’s Surface

By Robert Trembley  |  20 Mar 2019

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Bennu particle jets
Bennu particle jets This view of asteroid Bennu ejecting particles from its surface on January 19 was created by combining two images taken on board NASA’s OSIRIS-REx spacecraft. Other image processing techniques were also applied, such as cropping and adjusting the brightness and contrast of each image. Credits: NASA/Goddard/University of Arizona/Lockheed Martin

A NASA spacecraft that will return a sample of a near-Earth asteroid named Bennu to Earth in 2023 made the first-ever close-up observations of particle plumes erupting from an asteroid’s surface. Bennu also revealed itself to be more rugged than expected, challenging the mission team to alter its flight and sample collection plans, due to the rough terrain.

Bennu is the target of NASA’s Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer (OSIRIS-REx) mission, which began orbiting the asteroid on Dec. 31. Bennu, which is only slightly wider than the height of the Empire State Building, may contain unaltered material from the very beginning of our solar system.

“The discovery of plumes is one of the biggest surprises of my scientific career,” said Dante Lauretta, OSIRIS-REx principal investigator at the University of Arizona, Tucson. “And the rugged terrain went against all of our predictions. Bennu is already surprising us, and our exciting journey there is just getting started.”

Shortly after the discovery of the particle plumes on Jan. 6, the mission science team increased the frequency of observations, and subsequently detected additional particle plumes during the following two months. Although many of the particles were ejected clear of Bennu, the team tracked some particles that orbited Bennu as satellites before returning to the asteroid’s surface.

My team is also using navigation tools to help track and study the material Bennu is ejecting from its surface. This composite image from NavCam 1 shows the trajectories of particles released Jan. 19 (green arrows) and background stars (yellow diamonds). #BennuRevealed #LPSC2019 pic.twitter.com/71tce1pyoE

— NASA's OSIRIS-REx (@OSIRISREx) March 19, 2019

The OSIRIS-REx team initially spotted the particle plumes in images while the spacecraft was orbiting Bennu at a distance of about one mile (1.61 kilometers). Following a safety assessment, the mission team concluded the particles did not pose a risk to the spacecraft. The team continues to analyze the particle plumes and their possible causes.

“The first three months of OSIRIS-REx’s up-close investigation of Bennu have reminded us what discovery is all about — surprises, quick thinking, and flexibility,” said Lori Glaze, acting director of the Planetary Science Division at NASA Headquarters in Washington. “We study asteroids like Bennu to learn about the origin of the solar system. OSIRIS-REx’s sample will help us answer some of the biggest questions about where we come from.”

OSIRIS-REx launched in 2016 to explore Bennu, which is the smallest body ever orbited by spacecraft. Studying Bennu will allow researchers to learn more about the origins of our solar system, the sources of water and organic molecules on Earth, the resources in near-Earth space, as well as improve our understanding of asteroids that could impact Earth.

The OSIRIS-REx team also didn’t anticipate the number and size of boulders on Bennu’s surface. From Earth-based observations, the team expected a generally smooth surface with a few large boulders. Instead, it discovered Bennu’s entire surface is rough and dense with boulders.

Asteroid Bennu’s surface This image shows a view across asteroid Bennu’s southern hemisphere and into space, and it demonstrates the number and distribution of boulders across Bennu’s surface. The image was obtained on Mar. 7 by the PolyCam camera on NASA’s OSIRIS-REx spacecraft from a distance of about 3 miles (5 km). The large, light-colored boulder just below the center of the image is about 24 feet (7.4 meters) wide, which is roughly half the width of a basketball court. Credit: NASA/Goddard/University of Arizona

The higher-than-expected density of boulders means that the mission’s plans for sample collection, also known as Touch-and-Go (TAG), need to be adjusted. The original mission design was based on a sample site that is hazard-free, with an 82-foot (25-meter) radius. However, because of the unexpectedly rugged terrain, the team hasn’t been able to identify a site of that size on Bennu. Instead, it has begun to identify candidate sites that are much smaller in radius.

The smaller sample site footprint and the greater number of boulders will demand more accurate performance from the spacecraft during its descent to the surface than originally planned. The mission team is developing an updated approach, called Bullseye TAG, to accurately target smaller sample sites.

To safely collect a sample, my original mission design called for a hazard-free area with an 82-ft (25 m) radius. With so many boulders on Bennu, I'll need to target a much smaller area – about the size of the loose material "pond" in the upper left of this image. #BennuRevealed pic.twitter.com/qc6yPT0tw5

— NASA's OSIRIS-REx (@OSIRISREx) March 19, 2019

“Throughout OSIRIS-REx’s operations near Bennu, our spacecraft and operations team have demonstrated that we can achieve system performance that beats design requirements,” said Rich Burns, the project manager of OSIRIS-REx at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “Bennu has issued us a challenge to deal with its rugged terrain, and we are confident that OSIRIS-REx is up to the task.”

The original, low-boulder estimate was derived both from Earth-based observations of Bennu’s thermal inertia — or its ability to conduct and store heat — and from radar measurements of its surface roughness. Now that OSIRIS-REx has revealed Bennu’s surface up close, those expectations of a smoother surface have been proven wrong. This suggests the computer models used to interpret previous data do not adequately predict the nature of small, rocky, asteroid surfaces. The team is revising these models with the data from Bennu.

Asteroid Bennu This mosaic of images shows Bennu’s entire surface as the asteroid rotates. This data was collected as OSIRIS-REx approached Bennu using the spacecraft’s long-range PolyCam imager. Credit: NASA/Goddard/University of Arizona

The OSIRIS-REx science team has made many other discoveries about Bennu in the three months since the spacecraft arrived at the asteroid, some of which were presented Tuesday at the 50th Lunar and Planetary Conference (#LPSC2019) in Houston and in a special collection of papers issued by the journal Nature.

The team has directly observed a change in the spin rate of Bennu as a result of what is known as the Yarkovsky-O’Keefe-Radzievskii-Paddack (YORP) effect. The uneven heating and cooling of Bennu as it rotates in sunlight is causing the asteroid to increase its rotation speed. As a result, Bennu’s rotation period is decreasing by about one second every 100 years. Separately, two of the spacecraft’s instruments, the MapCam color imager and the OSIRIS-REx Thermal Emission Spectrometer (OTES), have made detections of magnetite on Bennu’s surface, which bolsters earlier findings indicating the interaction of rock with liquid water on Bennu’s parent body.

OSIRIS-REx probe The OSIRIS-REx spacecraft near asteroid 101955 Bennu in Dec. 2018. Image credit: NASA Eyes on the Solar System / Bob Trembley

Goddard provides overall mission management, systems engineering, and the safety and mission assurance for OSIRIS-REx. Dante Lauretta of the University of Arizona, Tucson, is the principal investigator, and the University of Arizona also leads the science team and the mission’s science observation planning and data processing. Lockheed Martin Space in Denver built the spacecraft and is providing flight operations. Goddard and KinetX Aerospace are responsible for navigating the OSIRIS-REx spacecraft. OSIRIS-REx is the third mission in NASA’s New Frontiers Program, which is managed by NASA’s Marshall Space Flight Center in Huntsville, Alabama, for the agency’s Science Mission Directorate in Washington.

To find out more about the OSIRIS-REx mission, visit: https://www.nasa.gov/osiris-rex

Dwayne Brown / JoAnna Wendel
Headquarters, Washington
202-358-1726 / 202-358-1003
dwayne.c.brown@nasa.gov / joanna.r.wendel@nasa.gov

Nancy Neal Jones
Goddard Space Flight Center, Greenbelt, Md.
301-286-0039
nancy.n.jones@nasa.gov

Erin Morton
Office of the Principal Investigator, University of Arizona, Tucson
520-269-2493
morton@orex.lpl.arizona.edu

Last Updated: March 19, 2019
Editor: Sean Potter

Source: NASA/JPL Press Release 19-020, March 19, 2019
Tweet: https://twitter.com/OSIRISREx/status/1108062375264030720


Also of interest:

My latest @NatureGeosci Sketch-Up is out, and it’s about @OSIRISREx and Bennu—a rubble pile asteroid with a complex history! The authors presented this work this morning at #LPSC2019, and more sketches are coming! Shareable PDF: https://t.co/OV8gHLgaEo. @DSLauretta @kwalsh4 pic.twitter.com/XbpNCRIsh0

— James Tuttle Keane (@jtuttlekeane) March 19, 2019

A smaller sample site footprint will require my descent to Bennu’s surface during the touch-and-go sampling maneuver (TAG) to be more accurate than originally planned. My team is developing an updated approach, called Bullseye TAG, to target smaller sample sites.🎯 #BennuRevealed pic.twitter.com/OCRoIT5LbS

— NASA's OSIRIS-REx (@OSIRISREx) March 19, 2019

Looking for the images of asteroid Bennu released today? Find them (and more!) in the mission's spacecraft imagery gallery: https://t.co/4skmUbWrfk #BennuRevealed #LPSC2019 pic.twitter.com/LU5lIcLUcF

— NASA's OSIRIS-REx (@OSIRISREx) March 19, 2019

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