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- Jupiter and Saturn both have many moons,<\/strong> with Saturn having nearly twice as many as Jupiter. But Jupiter has more large moons than Saturn. Why is that?<\/li>\n
- The planets\u2019 magnetic fields and disks of material <\/strong> that the moons were born in provide the answers, says a new study from researchers in Japan.<\/li>\n
- Jupiter\u2019s much stronger magnetic field<\/strong> created cavities in its disk for the large moons to grown in.<\/li>\n<\/ul>\n
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Jupiter\u2019s large moons outnumber Saturn\u2019s<\/h3>\n
In the last week, astronomers announced even more new moons for Jupiter and Saturn. As of now, Jupiter has 115 known moons and Saturn has a whopping 292. But Jupiter has four large moons \u2013 Ganymede, Callisto, Io and Europa \u2013 while Saturn has only one, Titan. Why the discrepancy? Researchers in Japan said on April 8, 2026, that the answer might have to do with the magnetic fields around both planets and the disks of material that the moons originally formed in.<\/p>\n
This question has been the subject of long-running debate among astronomers. Now, the new findings show that scientists need to reevaluate their theories about the formation of moons around gas giant planets. This could also be extrapolated to possible moons around distant exoplanets as well.<\/p>\n
Jupiter\u2019s four large moons are known as the Galilean moons. They were named in honor of the Italian astronomer Galileo, who discovered them through his telescope in 1610.<\/p>\n
The researchers published their peer-reviewed results in Nature Astronomy<\/em> on April 2, 2026.<\/p>\n
![\"Animation](\"https:\/\/earthsky.org\/upl\/2026\/03\/Saturn-moons-orbits-diagram-brighter.gif\")
On March 16, 2026, the Minor Planet Center (MPC) announced 11 more moons for Saturn and 4 more moons for Jupiter. And then, just this past week, the MPC announced another 14 moons for Jupiter and 7 for Saturn. So Saturn now has 292 confirmed moons! This animation is from Tony Dunn, creator of Orbitsimulator.com. Image via Tony Dunn\/ Bluesky (@tony873004). Used with permission.<\/figcaption><\/figure>\n ![\"Smiling](\"https:\/\/earthsky.org\/upl\/2026\/04\/Yuri-Fujii-Kyoto-University.jpg\")
Yuri I. Fujii at Kyoto University in Japan is the lead author of the new paper about the large moons of Jupiter and Saturn. Image via Kyoto University.<\/figcaption><\/figure>\n Magnetic fields and circumplanetary disks<\/h3>\n
The new findings involve both the magnetic fields of Jupiter and Saturn and the circumplanetary disks that surrounded them when they were first forming. Those disks contain the dust and gas that moons are born in.<\/p>\n
And the researchers found something interesting. The structure of the disks of the two planets were different from each other. According to the new study, this difference originated from the strength of the planets\u2019 magnetic fields.<\/p>\n
Jupiter has a much stronger magnetic field than Saturn. This created magnetospheric cavities in the circumplanetary disk. These cavities then captured the forming moons Ganymede, Callisto, Io and Europa.<\/p>\n
But Saturn\u2019s magnetic field was too weak to create such cavities. Therefore, any larger moons that might have existed didn\u2019t survive inside the disk. Except for Titan, of course.<\/p>\n
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National Astronomical Observatory of Japan: How Jupiter Cultivated More Large Moons Than Saturn \u2014 a Magnetospheric Cavity Explains the Difference www.nao.ac.jp\/en\/news\/scie\u2026<\/p>\n
\u2014 AAS Press Office (@press.aas.org) 2026-04-08T17:50:35.051Z<\/p>\n<\/blockquote>\n
Testing planet formation theories<\/h3>\n
The researchers wanted to test planet formations theories. Understanding how the planets \u2013 and moons \u2013 formed in our solar system could provide clues about planets and moons around other stars.<\/p>\n
In particular, planets with multiple moons, like Jupiter and Saturn and others, might be analogs for other planetary and moon systems. As lead author Yuri I. Fujii at Kyoto University noted:<\/p>\n
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Testing planet formation theory is somewhat difficult because we have only our solar system for reference, but there are multiple satellite systems close to us whose detailed characteristics we can observe.<\/p>\n<\/blockquote>\n
The researchers are confident that the new findings will indeed help astronomers identify exomoons<\/em>. As of now, there are several candidates, but no confirmations yet. The paper states:<\/p>\n
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Our findings predict that compact exomoon systems \u2013 in cases of massive gas giants, and a couple of distant moons in cases of Saturn-sized gas giants \u2013 will be found in future surveys.<\/p>\n<\/blockquote>\n
![\"Part](\"https:\/\/earthsky.org\/upl\/2019\/07\/Jupiter-and-four-Galilean-moons-e1594436021400.jpg\")
Composite image of Jupiter and its 4 large Galilean moons. From left to right the moons are Io, Europa, Ganymede and Callisto. The Galileo spacecraft obtained the images to make this composite in 1996. Image via NASA Photojournal.<\/figcaption><\/figure>\n Bottom line: Jupiter\u2019s large moons \u2013 Ganymede, Callisto, Io and Europa \u2013 number four. But Saturn has just one large moon, Titan. Why? It may be the planets\u2019 magnetic fields.<\/p>\n
Source: Different architecture of Jupiter and Saturn satellite systems from magnetospheric cavity formation<\/p>\n
Via Kyoto University<\/p>\n
Read more: More moons for Jupiter and Saturn! New totals here<\/p>\n
Read more: New moons! Uranus now has 28 and Neptune 16<\/p>\n
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\n - The planets\u2019 magnetic fields and disks of material <\/strong> that the moons were born in provide the answers, says a new study from researchers in Japan.<\/li>\n