New research reveals that Pluto’s largest moon, Charon, once spun far faster than it does today. Scientists have found a pattern of ridges and faults stretching across its frozen surface. A study published in Nature Communications analysed images from NASA’s New Horizons flyby and found that Charon’s geology preserves a record of a dramatic slowdown in its rotation.
The team, led by Hanzhang Chen of the University of California, Los Angeles, focused on Oz Terra, a region in Charon’s northern hemisphere.
They found that there, mountain ranges more than 200 km long show asymmetric slopes and compressional ridges running north-south, along with east-west extensional features near the poles.
That combination isn’t random. Modelling indicates it was caused by “despinning”, the gradual slowing of Charon’s spin due to tidal forces from Pluto. “This study drastically changed our understanding of the geologic history of Charon,” Hanzhang Chen, the study’s first author, told Gizmodo.
As a body spins down, it becomes less flattened at the equator. The crust shortens and buckles, creating compressional faults. On Charon, the crust near the equator shortened by about 1% during this process.
The models suggest Charon once rotated about once every 14.3 hours. Today, it’s tidally locked with Pluto, meaning one rotation takes 153.3 hours, the same as its orbital period. In other words, Charon’s day was once more than 10 times shorter than it is now.
“This study drastically changed our understanding of the geologic history of Charon,” Hanzhang Chen, the study’s first author, told Gizmodo.
As a body spins down, it becomes less flattened at the equator. The crust shortens and buckles, creating compressional faults. On Charon, the crust near the equator shortened by about 1% during this process.
The models suggest Charon once rotated about once every 14.3 hours. Today, it’s tidally locked with Pluto, meaning one rotation takes 153.3 hours, the same as its orbital period. In other words, Charon’s day was once more than 10 times shorter than it is now.

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