Skip to main content
  1. Home
  2. Emerging Tech
  3. News

Why is Saturn’s atmosphere so warm? Cassini data could explain

Add as a preferred source on Google

Although we are learning more than ever before about the other planets in our solar system, there are still plenty of mysteries to unwind. One open question is why exactly the atmosphere of gas giants like Saturn is so warm, even when the planet is located far from the sun.

Saturn’s atmosphere is composed primarily of hydrogen, with a smaller amount of helium and traces of methane and water ice. It has highly variable temperatures, with some regions being up to 80 degrees Celcius in temperature and others as low as -250 degrees Celsius. Saturn is also home to some of the strongest winds in the solar system, with wind speeds of over 1,100 miles per hour.

Recommended Videos

The planet’s atmosphere temperatures are an ongoing mystery though, as it is located so far from the sun that it can’t receive much heat from the star. So what is keeping its atmosphere warm?

This false-color composite image shows auroras (depicted in green) above the cloud tops of Saturn's south pole. The 65 observations used here were captured by Cassini's visual and infrared mapping spectrometer on Nov. 1, 2008.
This false-color composite image shows auroras (depicted in green) above the cloud tops of Saturn’s south pole. The 65 observations used here were captured by Cassini’s visual and infrared mapping spectrometer on Nov. 1, 2008. ASA/JPL/ASI/University of Arizona/University of Leicester

A new analysis of data from NASA’s Cassini probe suggests that auroras may be responsible. Like the Northern Lights here on Earth, other planets also have auroras in which solar winds interact with the magnetosphere. In the case of Saturn, as solar winds interact with charged particles from its moons, they create electric currents which not only create the auroras but also generate heat.

The high winds of Saturn play a role as well, by distributing the energy produced by the electrical currents at the poles around the rest of the planet. At the poles, the currents generate enough heat to make the atmosphere twice the temperatures that would be expected if they were heated only by the sun.

“The results are vital to our general understanding of planetary upper atmospheres and are an important part of Cassini’s legacy,” lead author Tommi Koskinen, a member of Cassini’s Ultraviolet Imaging Spectrograph (UVIS) team, said in a statement. “They help address the question of why the uppermost part of the atmosphere is so hot while the rest of the atmosphere – due to the large distance from the sun — is cold.”

The results are published in the journal Nature Astronomy.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
This tiny gadget called Moodi could save your thumb during long reading sessions
This tiny remote thinks your finger deserves a vacation
DuRoBo Moodi

Digital reading has become more comfortable thanks to larger displays and e-paper screens, but one small annoyance remains: constantly reaching over to tap or swipe every page. DuRoBo believes it has a solution. The company has unveiled Moodi, its first Bluetooth page-turning remote, designed to make reading, browsing, and media control more comfortable across e-readers, tablets, and smartphones.

Unlike conventional page-turners that focus solely on e-books, Moodi doubles as a compact Bluetooth remote for scrolling through articles, controlling multimedia playback, and navigating long-form content. The device looks towards ergonomic accessories that aim to reduce repetitive hand movements during extended screen time.

Read more
Your next phone could get a smaller camera with sharper photos
Camera sensors just got thinner. Your excuses for blurry photos didn't.
Representative Image

Researchers at Nagoya University have developed a new type of transparent optical sensor that could significantly reduce the size of camera sensors while improving image quality. Published in the journal ACS Nano, the study demonstrates how gallium-doped zinc oxide (GZO) nanosheets can detect red, green, and blue (RGB) light within a single pixel, potentially replacing the decades-old Bayer filter design used in nearly every digital camera today.

If commercialized, the technology could enable thinner smartphone cameras, higher-resolution medical imaging devices, and more compact sensors for automotive and aerospace applications, all while simplifying manufacturing.

Read more
This new chip stacking technique could be the key to unlocking faster AI performance
Researchers solved the fragile chip stacking problem holding AI memory back, and the results are significant.
ai-chip-image

Every time you use ChatGPT or generate an image with AI, there is a memory chip working at extreme speed behind the scenes. However, that chip has a memory bottleneck problem, and a Korean research team may have just solved it.

Researchers at POSTECH (Pohang University of Science and Technology) developed a new way to stack more than 10 ultrathin semiconductor chips on top of each other, achieving a memory density roughly four times higher than the best commercial chips available today (via TechXplore).

Read more