The mystery of Jupiter’s strangely switching jet stream may have just been solved.
Gravity waves are likely causing Jupiter’s jet stream to change direction, a new study suggests. The new results could reveal information not just about clouds in the atmospheres of planets in our own solar system, but also about those moving above the surfaces of alien worlds, researchers said.
“Jupiter is much bigger than Earth, much farther from the sun, rotates much faster and has a very different composition, but it turns out to be an excellent laboratory for understanding this equatorial phenomenon,” study lead author Rick Cosentino, a postdoctoral fellow at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, said in a statement. [Photos: Jupiter, the Solar System’s Largest Planet ]
An image of Jupiter in a crescent shape, with its famous Red Spot prominent.
Credit: NASA/JPL-Caltech
About every four Earth years, the east-west jet stream flowing high over Jupiter’s equator switches direction — a mysterious phenomenon called the quasi-quadrennial oscillation (QQO). The QQO resembles a process seen both on Earth and Saturn, which occurs every 28 Earth months and every 15 Earth years, respectively, study team members said.
For the first time ever, researchers analyzed detailed observations of the full QQO process, made over the course of five years with NASA’s Infrared Telescope Facility (IRTF) in Hawaii. The new measurements — which spanned latitudes from about 40 degrees north to 40 degrees south of Jupiter’s equator — were made possible by an instrument called the Texas Cross Echelle Spectrograph, which the study team mounted on the IRTF.
“These measurements were able to probe thin vertical slices of Jupiter’s atmosphere,” study co-author Amy Simon, also a scientist at NASA Goddard, said in the same statement. “Previous data sets had lower resolution, so the signals were essentially smeared out over a large section of the atmosphere.”
After comparing the new data with simulations, the team concluded that gravity waves are likely the driving force behind QQO. Gravity waves occur in air or liquid, and are caused by gravity or buoyancy acting to restore equilibrium; wind-driven waves at the ocean’s surface are a prominent example. They’re very different than the ripples in space-time known as gravitational waves.
On Jupiter, gravity waves produced by convection low in the atmosphere likely cause the QQO as they rise into the stratosphere, the researchers said.
A cylindrical projection of Jupiter’s surface from the “Journey to Jupiter” project led by Peter Rosén in Stockholm. The pearl-shaped storms in Jupiter’s southern hemisphere are located at approximately 40 degrees south latitude.
Credit: Peter Rosén/PixMix
“Our model could be applied to study the effects of these mechanisms in other planets of the solar system and in exoplanets,” study co-author Raúl Morales-Juberías, an associate professor at the New Mexico Institute of Mining and Technology in Socorro, said in the same statement . “Despite the many differences between Earth and Jupiter, the coupling mechanisms between the lower and upper atmospheres in both planets are similar and have similar effects.”
Follow Doris Elin Salazar on Twitter@salazar_elin . Follow us @Spacedotcom , Facebook and Google+ . Original article on Space.com .
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