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Jupiter’s moon Ganymede could be a giant dark matter detector

Large pieces of dark matter hitting Jupiter’s largest moon would form distinctive craters in its icy surface, and upcoming space missions might be able to spot them
Enhanced Ganymede (Enhanced Image) NASA ID: PIA25028 This enhanced image of the Jovian moon Ganymede was obtained by the JunoCam imager aboard NASA's Juno spacecraft during the mission's June 7, 2021, flyby of the icy moon on Juno's 34th pass close to Jupiter. This is an extended, upscaled and artistically enhanced version of a previously released JunoCam image: PIA24681. The missing top part of the original JunoCam image has been reconstructed, for the most part, using an additional image. To make the new, enhanced image, small surface features have been extracted from elsewhere on Ganymede's surface. During the June 7 flyby, Juno passed just 645 miles (1,038 kilometers) above the surface of the Ganymede, which is the solar system's largest moon. The spacecraft has been in orbit around Jupiter since July 4, 2016, but this was the first pass close to one of Jupiter's large moons. Juno is a spin-stabilized spacecraft (with a rotation ...more Date Created:2021-12-17 Center:JPL Keywords: Juno , Jupiter Secondary Creator Credit: NASA/JPL-Caltech/SwRI/MSSS/Kalleheikki Kannisto
A view of Ganymede from NASA’s Juno spacecraft
JunoCam/NASA/JPL-Caltech​/SwRI/MSSS/Kalleheikki Kannisto

Jupiter’s moon Ganymede could be a vast dark matter detector, and upcoming space missions might be able to spot distinctive dark matter craters on its ancient surface.

Physicists searching for dark matter usually look for tiny, extremely light particles that interact weakly with standard matter, requiring large and well-insulated underground detectors. Another kind of dark matter object could instead be more than a metre in diameter, and perhaps as massive as a small asteroid, but also vanishingly rare, interacting with normal matter extremely infrequently. To detect these large dark matter objects, you would need a detector the size of a moon or planet to make up for their sparsity.

at the University of Maryland has proposed that the largest moon in the solar system, Ganymede, might contain evidence of these massive dark matter object. His work suggests they would form distinctive craters in the moon’s icy surface that are preserved for millions of years thanks to its geological inactivity.

DeRocco calculated how far a massive dark matter object would penetrate Ganymede’s thick icy shell, and found it would go much deeper than a typical asteroid, reaching into the moon’s subsurface ocean and bringing up distinctive minerals.

Upcoming missions to Jupiter and Ganymede, such as NASA’s Europa Clipper and ESA’s JUICE, could spot signs of these dark matter craters from above. DeRocco calculates that they would look comparatively small, as well as isolated from other ruptures or geological features. The spacecraft could then make further observations. “If you used something like ground-penetrating radar, you might be able to see this column of melted ice going all the way down through the ice,” says DeRocco.

Using a moon-sized dark matter detector could help look for objects that are impossible to find on Earth, says at the University of California, Los Angeles. “No experiments on Earth are going to be able to find something like a bowling ball-sized piece of dark matter, or [object the size of] a fridge or a car. They just don’t impact often enough.”

The proposal is detailed and well-thought through, says at the University of Cantabria in Spain, but there also aren’t any particularly strong physical reasons for believing such heavy dark matter objects exist. “It’s more about trying to look at all the possibilities,” he says. “I would say these are quite exotic objects. They’re incredibly dense and would be held together by very strong forces in some dark sector.”

Reference:

arXiv,

Article amended on 26 August 2025

We corrected terms used to describe the dark matter objects.

Topics: Dark matter / Space exploration