Just 500 kilometers in diameter, Saturn‘s sixth largest satellite would fit comfortably within the UK.
But new research has revealed that this tiny icy world has an electromagnetic influence over a distance of more than 500,000 kilometers, which is longer than the distance between us. month.
The discovery comes from a comprehensive analysis of data collected by the Cassini spacecraft during its 13-year exploration of Saturn.
An international team led by Lina Hadid from France’s Institute of Plasma Physics investigated four different instruments aboard Cassini to piece together how Enceladus’ famous water geysers produce far-reaching electromagnetic effects.
Enceladus spews plumes of water vapor and dust particles through cracks in its icy southern hemisphere. When exposed to Saturn’s radiation environment, these water molecules become electrically charged and interact with the giant planet’s magnetic field to form plasma that passes through the moon.
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This interaction produces structures called Alfvén wings. This is an electromagnetic wave that travels like a vibration along a plucked guitar string, along the magnetic field lines connecting Enceladus and Saturn’s poles.
What makes this discovery remarkable is the sheer scale and complexity of the system. Alfvén’s wings won’t simply move to Saturn and disappear. Instead, it bounces back and forth between the ionosphere at Saturn’s poles and the donut-shaped plasma torus surrounding Enceladus’ orbit.
Each reflection generates additional waves, building a grid-like network of intersecting electromagnetic structures that spread through Saturn’s equatorial plane and reach high latitudes in the north and south.
On 36 occasions during Cassini’s mission, the spacecraft detected signatures of these waves at far greater distances than researchers had originally expected.
The researchers measured Alfvén wave signatures extending 504,000 kilometers from Enceladus, more than 2,000 times the moon’s radius. For comparison, this is the approximate distance from London to Sydney and back.
“This is the first time that such widespread electromagnetic radiation has been observed by Enceladus.” say Thomas Chust, LPP, co-author of this study.
“This discovery shows that this tiny moon acts as a giant planet-scale Alfvén wave generator, circulating energy and momentum throughout Saturn’s space environment.”
The study also revealed the fine structure within Alfvén’s main wing. The turbulence draws the waves into fibers that effectively reflect off Enceladus’ plasma torus and help them reach the high latitudes of Saturn’s ionosphere, where the auroral features associated with the Moon appear.
This electromagnetic interaction between Enceladus and its giant host provides a template for understanding similar systems around it. JupiterIcy moons: Europa, Ganymede, Callisto, and possibly even exoplanets with magnetically active moons.
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It highlights key science goals for future missions, including ESA’s planned Enceladus orbiter and lander in the 2040s, which should carry instruments that can study their electromagnetic interactions in unprecedented detail.
This research Geophysical Research Journal: Astrophysics.
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