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Mining Voyager 2 data unlocks long-standing Uranus mysteries

Written by  Tuesday, 12 November 2024 05:58
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Pasadena CA (JPL) Nov 12, 2024
NASA's groundbreaking flyby of Uranus by Voyager 2 in 1986 provided a wealth of data that puzzled scientists for decades. Recent analysis of that data has shed light on some of those mysteries. During its historic 1986 approach, Voyager 2 captured the first detailed images and readings of Uranus, revealing an unconventional planet with a tilted axis and unique characteristics, including un
Mining Voyager 2 data unlocks long-standing Uranus mysteries
by Staff Writers
Pasadena CA (JPL) Nov 12, 2024

NASA's groundbreaking flyby of Uranus by Voyager 2 in 1986 provided a wealth of data that puzzled scientists for decades. Recent analysis of that data has shed light on some of those mysteries.

During its historic 1986 approach, Voyager 2 captured the first detailed images and readings of Uranus, revealing an unconventional planet with a tilted axis and unique characteristics, including unexpected behavior in its magnetosphere. This region, known for trapping charged particles, exhibited anomalies that confounded researchers.

Newly revisited data from that mission now reveal that an unusual space weather event compressed Uranus' magnetosphere just days before Voyager 2's flyby. According to Jamie Jasinski from NASA's Jet Propulsion Laboratory and lead author of a recent study published in *Nature Astronomy*, "If Voyager 2 had arrived just a few days earlier, it would have observed a completely different magnetosphere at Uranus." This compression, seen only 4% of the time, caused a depletion of plasma and a sudden injection of electrons.

Magnetospheres protect planets with magnetic fields by acting as barriers against solar wind plasma. Voyager 2's data showed intense electron radiation belts similar only to Jupiter's, but it did not detect the usual plasma sources expected from the planet's five major moons, leading scientists to believe these moons were geologically inactive.

The latest findings attribute the absence of plasma to the forceful solar wind that expelled it from Uranus' magnetosphere. This phenomenon also suggests that Uranus' moons could potentially be more active than previously thought, consistently supplying ions to the planet's environment.

These insights have spurred interest among planetary scientists, aligning with the National Academies' 2023 Planetary Science and Astrobiology Decadal Survey, which identified the Uranus system as a priority for future missions.

Linda Spilker, who was part of the original Voyager 2 team, reflected on the momentous flyby: "The flyby was packed with surprises, and we were searching for an explanation of its unusual behavior. The magnetosphere Voyager 2 measured was only a snapshot in time. This new work explains some of the apparent contradictions, and it will change our view of Uranus once again."

Today, Voyager 2 continues its journey in interstellar space, approximately 13 billion miles from Earth.

Research Report:The anomalous state of Uranus's magnetosphere during the Voyager 2 flyby

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