ilan
03-31-2019, 12:47 PM
Grab a bit of asteroid Bennu? Turns out, it’s tougher than expected
Eleanor Imster in SPACE | March 31, 2019
The OSIRIS-REx mission, which plans to return the 1st-ever asteroid sample to Earth, is facing some unexpected challenges.
https://media.giphy.com/media/K71meFUGlhlrq/giphy.gif
The first close-up observations by the OSIRIS-REx spacecraft of its target, asteroid Bennu, reveal new details that pose a bigger challenge than scientists expected to the mission’s objective of collecting a sample of the asteroid.
The OSIRIS-REx (Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer) spacecraft reached Bennu on December 3, 2018, after traveling 1.4 million miles (2.2 million km). For the past three months, OSIRIS-REx has been investigating Bennu at close range, beginning to search for an ideal site to collect a sample, and getting to know the asteroid in much greater detail.
While the spacecraft’s observations have confirmed many of the measurements obtained by ground-based observations, recent findings have revealed that Bennu is a more challenging target than the mission was originally designed for.
Here are some key findings from mission team members, presented at the Lunar and Planetary Sciences Conference in Houston on March 19, 2019.
Big boulders on Bennu’s surface
The OSIRIS-REx team developed its sampling strategy around what they knew about Bennu when they designed the mission. They anticipated plentiful patches of relatively smooth surface with gravel and pebbles less than 1 inch in size that extend over at least 55 yards (50 meters). Instead, the spacecraft observed only a small number of regions, each between 5.4 and 22 yards (5 and 20 m), that are devoid of large boulders that pose a hazard to the spacecraft when it touches down to collect its sample.
… make for a terrible airfield
Instead of having the equivalent of half a football field to navigate in, the spacecraft will have to operate within the confines of sampling sites that are half the size of a basketball court or smaller.
High-resolution images made with the OSIRIS-REx cameras reveal a surface packed with more than 200 boulders larger than 33 feet (10 m) in diameter and many more that are 3 feet (1 m) or larger. The largest boulder measures 63 yards (58 m) across.
Bennu is very dark
OSIRIS-REx measurements also confirm that Bennu is one of the darkest objects in the solar system, reflecting only 4 percent of sunlight. One of the surprises turned out to be a larger-than-expected variability in surface albedo, the proportion of light reflected by a surface. In other words, Bennu’s surface features vary greatly from one another with respect to their brightness. The high variability in albedo presents a challenge for the laser of the spacecraft’s lidar system, designed to guide the sample acquisition approach.
These findings were published in the peer-reviewed journal Nature on March 19, 2019.
http://en.es-static.us/upl/2016/12/asteroid-bennu-size-comparison.jpg
Another surprise … particle plumes!
In another strange discovery, OSIRIS-REx observed plumes of particles being energetically ejected from the surface of Bennu. It’s the first-ever close-up observations of particle plumes erupting from an asteroid’s surface.
The OSIRIS-REx team first spotted the particle plumes in images while the spacecraft was orbiting Bennu at a distance of about one mile (1.61 km). The mission team did a safety assessment and concluded the particles did not pose a risk to the spacecraft. The team continues to analyze the particle plumes and their possible causes.
Dante Lauretta is OSIRIS-REx principal investigator at the University of Arizona. Lauretta said in a statement:
The discovery of plumes is one of the biggest surprises of my scientific career. And the rugged terrain went against all of our predictions. Bennu is already surprising us, and our exciting journey there is just getting started.
Eleanor Imster in SPACE | March 31, 2019
The OSIRIS-REx mission, which plans to return the 1st-ever asteroid sample to Earth, is facing some unexpected challenges.
https://media.giphy.com/media/K71meFUGlhlrq/giphy.gif
The first close-up observations by the OSIRIS-REx spacecraft of its target, asteroid Bennu, reveal new details that pose a bigger challenge than scientists expected to the mission’s objective of collecting a sample of the asteroid.
The OSIRIS-REx (Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer) spacecraft reached Bennu on December 3, 2018, after traveling 1.4 million miles (2.2 million km). For the past three months, OSIRIS-REx has been investigating Bennu at close range, beginning to search for an ideal site to collect a sample, and getting to know the asteroid in much greater detail.
While the spacecraft’s observations have confirmed many of the measurements obtained by ground-based observations, recent findings have revealed that Bennu is a more challenging target than the mission was originally designed for.
Here are some key findings from mission team members, presented at the Lunar and Planetary Sciences Conference in Houston on March 19, 2019.
Big boulders on Bennu’s surface
The OSIRIS-REx team developed its sampling strategy around what they knew about Bennu when they designed the mission. They anticipated plentiful patches of relatively smooth surface with gravel and pebbles less than 1 inch in size that extend over at least 55 yards (50 meters). Instead, the spacecraft observed only a small number of regions, each between 5.4 and 22 yards (5 and 20 m), that are devoid of large boulders that pose a hazard to the spacecraft when it touches down to collect its sample.
… make for a terrible airfield
Instead of having the equivalent of half a football field to navigate in, the spacecraft will have to operate within the confines of sampling sites that are half the size of a basketball court or smaller.
High-resolution images made with the OSIRIS-REx cameras reveal a surface packed with more than 200 boulders larger than 33 feet (10 m) in diameter and many more that are 3 feet (1 m) or larger. The largest boulder measures 63 yards (58 m) across.
Bennu is very dark
OSIRIS-REx measurements also confirm that Bennu is one of the darkest objects in the solar system, reflecting only 4 percent of sunlight. One of the surprises turned out to be a larger-than-expected variability in surface albedo, the proportion of light reflected by a surface. In other words, Bennu’s surface features vary greatly from one another with respect to their brightness. The high variability in albedo presents a challenge for the laser of the spacecraft’s lidar system, designed to guide the sample acquisition approach.
These findings were published in the peer-reviewed journal Nature on March 19, 2019.
http://en.es-static.us/upl/2016/12/asteroid-bennu-size-comparison.jpg
Another surprise … particle plumes!
In another strange discovery, OSIRIS-REx observed plumes of particles being energetically ejected from the surface of Bennu. It’s the first-ever close-up observations of particle plumes erupting from an asteroid’s surface.
The OSIRIS-REx team first spotted the particle plumes in images while the spacecraft was orbiting Bennu at a distance of about one mile (1.61 km). The mission team did a safety assessment and concluded the particles did not pose a risk to the spacecraft. The team continues to analyze the particle plumes and their possible causes.
Dante Lauretta is OSIRIS-REx principal investigator at the University of Arizona. Lauretta said in a statement:
The discovery of plumes is one of the biggest surprises of my scientific career. And the rugged terrain went against all of our predictions. Bennu is already surprising us, and our exciting journey there is just getting started.