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Cairo – Samia Sayed – Researchers using NASA’s Juno probe have peered beneath the cloud tops of Jupiter to create a detailed 3D understanding of the planet’s atmosphere so far, and the research was recently published in a series of papers in Science and Journal of Geophysical Research: Planets.
Juno, which has been orbiting Jupiter since 2016, is best known for the beautiful images of the planet captured by its JunoCam camera, according to the tech digital trend.
But much of this latest research has been done with another of Juno’s instruments: the microwave radiometer (MWR), which can peer through the planet’s surrounding clouds and see deeper into its atmosphere.
“Previously, Juno has surprised us with indications that phenomena in Jupiter’s atmosphere have gone deeper than expected,” said Scott Bolton, Juno principal investigator of the Southwest Research Institute in San Antonio and lead author of one of the new research papers.
“Now, we’re starting to put all these individual pieces together and get our first real understanding of how Jupiter’s beautiful, violent atmosphere works — in 3D.” epic to a depth of 60 miles in the atmosphere.
Jupiter’s most famous storm – the impressive Great Red Spot – stretches more than 200 miles across, and is so large that researchers were able to detect changes in its speed using instruments that study the planet’s gravity.
“Being able to complete the MWR detection around depth gives us great confidence that future gravitational experiments at Jupiter will give us great confidence that future gravitational experiments at Jupiter will be able to do so,” said Marzia Baresi, Juno scientist from NASA’s Jet Propulsion Laboratory in Southern California and lead author of a paper published in Science on the Great Red Spot’s gravitational flyby. It will lead to equally interesting results.” Other leaves covered the atmospheric belts that give the planet its distinctive appearance, and the strange geometric storms at its poles.
“These new observations from Juno open a treasure chest of new information about Jupiter’s observable obscure features,” said Laurie Glaese, director of NASA’s Planetary Science Division at the agency’s headquarters in Washington. Each paper sheds light on different aspects of the planet’s atmospheric processes. A great example of how our diverse science teams can advance our understanding of our solar system.”