- AO Adapts: Continued Workshops, Training, and Education06 Jul, 2020
- Annoucing the Arecibo Observatory Town Hall01 Jul, 2020
- AO Features: Former AO Postdoctoral Researcher Kristen Jones30 Jun, 2020
- New AO Lidar Observations of Ca+ in the Mesosphere and Thermosphere29 Jun, 2020
- Breaking Assumptions on the Excitation Temperatures in Molecular Clouds29 Jun, 2020
- Modifying the Earth’s Ionosphere from Arecibo29 Jun, 2020
- AO radar measurements of Jupiter’s Moons29 Jun, 2020
- A New Approach for Understanding the Occurrence Rate of MSTIDs in the Caribbean Nighttime Ionosphere29 Jun, 2020
- Asteroid Visiting Earth’s Neighborhood Brings its Own Face Mask 23 Apr, 2020
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- Transforming the Arecibo Observatory into a Classroom31 Mar, 2020
- Arecibo Observatory re-enters VLBI network with 21st-century backend31 Mar, 2020
- JWST Workshop 31 Mar, 2020
- Management Update (COVID-19, Eartquakes, Transmitters)27 Mar, 2020
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- AO Colloquium: Dr. Michael Denton 27 Mar, 2020
In the 2030’s, two spacecrafts - NASA’s Europa Clipper and the European Space Agency’s Jupiter Icy Moons Explorer (JUICE) missions - will enter orbit around Jupiter to study the planet’s largest moons. Until then, observations of the Galilean satellites - named for their discoverer - are restricted to observations from Earth.
Precise knowledge of the moons’ orbits around Jupiter is key. In a recent study published in The Astronomical Journal, scientists used radar observations from the Arecibo Observatory spanning 17 years, from 1999 - 2016, to determine the satellites’ positions and motions over time.
“Arecibo is the only facility that can do these types of observations. You need the world’s most powerful radar system to reach all the way to Jupiter,” explained Dr. Marina Brozovic, a radar scientist at the Jet Propulsion Laboratory and lead author of the publication.
“Arecibo is the only facility that can do these types of observations. You need the world’s most powerful radar system to reach all the way to Jupiter,..” - Dr. Marina Brozovic, Radar scientist at NASA's Jet Propulsion Laboratory
“We were able to obtain some very high-precision measurements of the line-of-sight positions of the Galilean satellites. Only a spacecraft can do better,” Dr. Brozovic added. The team also obtained the very first radar images of Jupiter’s volcanic moon, Io.
Radar image of Jupiter’s largest moon, Ganymede, obtained at Arecibo Observatory on Jan 31, 2015 with 10.5 km resolution.
The new, precise astrometric measurements of the moons enabled high-precision estimates of their orbits, which were described in the study. Dr. Brozovic elucidated, “We are hoping that this work will lead to a better understanding of the orbital changes that the Galilean satellites experience due to their tidal interaction with Jupiter.”
Among the co-authors of the paper are current AO analyst Ms. Luisa Zambrano-Marin and former AO staff Dr. Michael Nolan, Dr. Patrick Taylor, Dr. James Richardson, and Ms. Linda Rodriguez-Ford.
The Arecibo Planetary Radar Program is funded by NASA’s Near-Earth Object Observations Program. The Arecibo Observatory is operated by the University of Central Florida (UCF) in partnership with Universidad Ana G. Mendez - Universidad Metropolitana and Yang Enterprises Inc., under a cooperative agreement with the National Science Foundation (NSF).
Article written by Dr. Tracy Becker - AO Collaborator / SwRI
Group Lead for Arecibo Planetary Radar
For more information about NASA Planetary Defense program please check out the following links:
Keywords: arecibo, observatory, virkki, NASA, radio , lunar, telescope, radio, telescope, Research, NEO, taylor, Brozovic,Moons ,NASA , Jet, Propulsion, Laboratory, Nolan, Richardson, Rodriguez, Ganymede