March 19, 2026
2 min read
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Something extremely weird is happening to our galactic neighbor. Scientists think they know why
The stars in the Small Magellanic Cloud aren’t behaving the way they should. A cataclysmic collision with another nearby galaxy may be the culprit
Himansh Rathore/University of Arizona
Astronomers may have finally explained why the Small Magellenic Cloud isn’t spinning like it should. The cause: it’s still reeling from an ancient run-in with its big sister, the Large Magellenic Cloud.
In a new study published on Monday in the Astrophysical Journal, researchers used computers to simulate the two dwarf galaxies’ hundred-million-year-long collision. They charted its impact on the smaller sibling to answer the longstanding question of why its stars aren’t orbiting as fast as they should.
“Understanding of the inner structure and dynamical state of the Small Magellanic Cloud is a long-standing struggle in the field,” says Michele De Leo, an astronomer at the University of Bologna. Any study to help explain this, he says, “is a step in the direction of solving the puzzle of complex interactions between galaxies.”
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Galaxies contain hundreds of millions of stars, and are suffused in sparse, ambient clouds of gas and dust as well. For a galaxy with a given size and brightness, the rotation of both the stars and the disk of gas follow a reliable pattern.
Simulated collision between the Small Magellanic Cloud and the Large Magellanic Cloud, used in a new study to explain why stars in the former are not rotating.
Himansh Rathore/University of Arizona
The Small Magellenic Cloud is a conspicuous exception. It’s a small, elongated galaxy that people in the Southern Hemisphere can see regularly in the night sky—twenty degrees from its neighbor, the Large Magellenic Cloud. (They’re named after Ferdinand Magellan, even though it was actually one of his crew who reported them, and he wasn’t the first.)
In the past few decades, astronomers have noticed that the stars in the smaller galaxy aren’t swirling around its center as fast as they should be, especially when compared to the rotation of its disk of gas. To explain this, they’ve floated the idea that we’re looking at the Small Magellenic Cloud after it ripped through the Large one, disrupting its rotation.
To test this, a team of four scientists built a computer simulation of this hypothetical collision. It produced snapshots of the two galaxies before, during, and after the crash, spanning hundreds of millions of years. The violence, they found, left the smaller galaxy in disarray, with its stars and gas rotating far less than before.
The Small Magellenic Cloud is often used as a comparison point for galaxies in the early universe, since it’s poor in heavy metals. So this dramatic update to its cosmic history might lead astronomers to revisit those comparisons.
“The SMC went through a catastrophic crash that injected a lot of energy into the system,” says Gurtina Besla, an astronomer at Steward Observatory and the study’s senior author. “It is not a ‘normal’ galaxy by any means.”
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