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'Ribbon' wraps up mystery of Jupiter's magnetic equator by Staff Writers Leicester UK (SPX) Jul 25, 2018
The discovery of a dark ribbon of weak hydrogen ion emissions that encircles Jupiter has overturned previous thinking about the giant planet's magnetic equator. An international team of scientists led by the University of Leicester has identified the weakened ribbon of H3+ emissions near the jovigraphic equator using the NSFCam instrument at the NASA InfraRed Telescope Facility, the first evidence of a localised ionospheric interaction with Jupiter's magnetic field. In the past, studies of Jupiter's ionosphere have almost exclusively focused on the poles of the planet, looking at the aurorae. These observations saw most of Jupiter's ionosphere as relatively smooth and uninteresting. This latest study has opened up the entire ionosphere for investigation and suggests that Jupiter's ionosphere is as complex as our observations are able to measure with levels of details still yet to be revealed. It also demonstrates that, despite the differences in their size and structure, both Earth and Jupiter have a similar localised ribbon that winds its way around the magnetic equator of the planet. The ionosphere is the ionized part of Jupiter's upper atmosphere. Here, collisions between photoelectrons and H2 are a significant source of H3+ ions. One explanation for the dark ribbon is that because electrons preferentially travel along magnetic field lines, these photoelectrons are diverted to higher latitudes from the magnetic equator as they move to lower altitudes - leaving behind the ribbon of reduced H3+ production. Recent data from NASA's Juno spacecraft supports the theory that this ribbon is a signature for Jupiter's magnetic equator. Lead author Dr Tom Stallard, Associate Professor in Planetary Astronomy from the University of Leicester, said: "The first time we saw the dark ribbon winding its way around Jupiter in our data, we felt sure we were seeing something special at Jupiter. The result was so startling and yet clear, it took us all by surprise, and we strongly suspected and speculated that the feature was caused by Jupiter's magnetic equator. "It was a great relief to us that a few months before our paper was published the first magnetic model of Jupiter was released from the Juno spacecraft, providing an unprecedented view of Jupiter's equatorial magnetic field, and the measured magnetic equator lined up almost exactly with our dark ribbon of emission. "Our observations, along with the recent measurements by Juno spacecraft, have surprised us. Some of Jupiter's auroral regions were highly complex, and so many earlier models predicted a very complex magnetic equator to match with this, but the magnetic equator is actually shaped much more like that of Earth. "Scientists working with Juno have suggested that this may indicate that the complex distortions in Jupiter's magnetic field may occur at relatively shallow depths in the planet. Our measurements also support that, because even though the equator is surprisingly simple, we see lots of complexity in the ionosphere between the equator and the pole. "This suggests Jupiter's magnetic field in these regions is much more complex than that of Earth. It also suggests that as Juno takes higher resolution observations, it will continue to reveal even more fine scale complexity." The scientists used 13,501 images of H3+ emissions taken over 48 nights between 1995 and 2000. This helps to reveal the rate of change in Jupiter's complex mid-latitude magnetic field and provides insight into what happens deep inside Jupiter. It also suggests that the location of Jupiter's magnetic equator has remained stable over the over the 15 years separating these two independent measurements. The observations identified a number of other localised dark regions, including the area identified last year as the Great Cold Spot by the same team of scientists. The Great Cold Spot is also thought to be caused by the effects of the magnetic field of the planet, with its spectacular polar aurorae driving energy into the atmosphere in the form of heat flowing around the planet and creating a region of cooling in the thermosphere. The study is published online by Nature Astronomy 23 July.
Research Report: 'Identification of Jupiter's magnetic equator through H3+ ionospheric emission"
Radiation Maps of Jupiter's Moon Europa: Key to Future Missions Pasadena CA (JPL) Jul 24, 2018 New comprehensive mapping of the radiation pummeling Jupiter's icy moon Europa reveals where scientists should look - and how deep they'll have to go - when searching for signs of habitability and biosignatures. Since NASA's Galileo mission yielded strong evidence of a global ocean underneath Europa's icy shell in the 1990s, scientists have considered that moon one of the most promising places in our solar system to look for ingredients to support life. There's even evidence that the salty water s ... read more
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