The satellite discovered during the first asteroid encounter of
The Lucy spacecraft flew by Dinkinesh and Selam on November 1, 2023. While observations leading up to the encounter had hinted that there was something interesting going on in this system, the team was surprised to discover that not only did Dinkinesh have a satellite, but that the satellite was a contact-binary, the first contact-binary satellite ever observed.
The team has completed downlinking encounter data from Lucy’s first asteroid encounter and is continuing to process it. The Dinkinesh encounter was added in January of this year as an in-flight test of the spacecraft’s systems and instruments, and all systems performed well. The tools and techniques refined with data from this encounter will help the team prepare for the mission’s main targets, the never-before-explored Jupiter Trojan asteroids. In addition to the images taken by Lucy’s high-resolution L’LORRI camera and its Terminal Tracking Cameras (T2Cam), Lucy’s other science instruments also collected data that will help scientists understand these puzzling asteroids.
On November 1, NASA’s Lucy spacecraft flew by not just its first asteroid, but its first two. The first images returned by Lucy reveal that the small main belt asteroid Dinkinesh is actually a binary pair. Credit: NASA’s Goddard Space Flight Center
The two components of the NASA Goddard Space Flight Center supplied L’Ralph instrument, the Multi-spectral Visible Imaging Camera (MVIC) and Linear Etalon Imaging Spectral Array (LEISA), both successfully observed the two asteroids from a variety of vantage points around closest approach. During the encounter, the two components scanned across the asteroids’ surfaces, enabling the team to assemble color images and spatially-resolved spectra of the objects.
“To assemble the final images, we must carefully account for the motion of the spacecraft, but Lucy’s accurate pointing information makes this possible,” said Amy Simon of NASA’s Goddard Space Flight Center, Greenbelt, Maryland. “These images will help scientists understand the composition of the asteroids, allowing the team to compare the makeup of the Dinkinesh and Selam and to understand how these bodies may be compositionally linked to other asteroids.”
The Arizona State University-supplied Lucy Thermal Emissions Spectrometer (L’TES) also detected the asteroids, even though, unlike the future Trojan asteroid targets, they filled only a small fraction of the instrument’s wide field of view. Scientists expect that the data will mostly provide insight into the surface properties of the larger asteroid, Dinkinesh.
“L’TES was able to detect and measure the temperature of the system for about nine minutes as the spacecraft flew by at its closest approach,” said Phil Christensen of Arizona State University, Tempe. “Different-sized particles, such as sand, pebbles, and boulders, heat up differently as the asteroid rotates. The L’TES temperature measurements will allow us to study the size and physical properties of the materials on the asteroid’s surface.”
Lucy is expected to visit 9 more asteroids over the next decade in 6 separate encounters. After an Earth gravity assist in December 2024, the spacecraft will return to the main asteroid belt where it will encounter asteroid Donaldjohanson in April 2025. Lucy will pass through the main belt and reach the mission’s primary targets, the