Posted on 04/01/2007 9:43:15 PM PDT by NormsRevenge
NASA's Chandra X-ray Observatory has captured the largest data set yet of Jupiter's colorful lights called aurora, yielding a pretty picture that could help solve some mysteries about the phenomenon.
The phenomenon is similar to the Northern Lights seen on Earth, thought on a much larger scale.
"Jupiter has auroras bigger than our entire planet," said Randy Gladstone of the Southwest Research Institute in San Antonio, Texas. In a NASA statement today, Gladstone called the purple rings in a new colorized image "Northern Lights on steroids. They're hundreds of times more energetic than auroras on Earth."
Unlike Earth's auroras, Jupiter's hyper-auroras never stop. "We see them every time we look," Gladstone said.
On Earth, the most intense auroras are caused by charged particles unleashed in solar storms. But Jupiter generates its own lights, Gladstone explained. The giant planet turns on it axis once every 10 hours and drags its planetary magnetic field around with it. This spin produces 10 million volts around its poles.
"Jupiter's polar regions are crackling with electricity," says Gladstone, "and this sets the stage for non-stop auroras."
Jupiter's volcanic moon Io feeds particles of oxygen and sulfur into the Jovian system. The particles become charged, contributing to the lights.
But scientists don't know exactly how volcanic exhaust meanders from Io out through Jupiter's magnetosphere and back to Jupiter's poles. "We're still trying to figure it out," Gladstone said.
There's another mystery: There is an X-ray "pulsar" inside Jupiter's northern auroras. Sometimes Chandra sees it, sometimes not. When it's on, the pulsar emits gigawatt bursts of X-rays with a regular beat of 45 minutes. It might be solar powered.
"Maybe Jupiter's magnetic field, when it gets hit by a solar wind gust, rings like a bell with a 45-minute period," Gladstone speculates. "There are many other possibilities as well."
The new X-ray observations, made in February, are being matched with data collected from the Hubble Space Telescope, the FUSE satellite, XMM-Newton (a European X-ray observatory), the New Horizons spacecraft and many ground-based observatories.
"Jupiter's auroras have never been observed by so many telescopes at once," Gladstone said. "I'm really excited by these data, and the analysis is just beginning."
X-ray auroras observed by the Chandra X-ray Observatory overlaid on a simultaneous optical image from the Hubble Space Telescope. Credit: NASA
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Complete the Circuit
City lights and auroras. Two different scales of plasma phenomena.
We have a good understanding of what causes the city lights. We can even understand that the source of their light is not necessarily where the lights are. There are generators connected to dams and coal-fired furnaces and even windmill farms that produce the electricity. Then high-tension wires carry the electricity cross-country to where it is needed. It is transformed and distributed by substations, then millions of individual users tap into the currents to light up the night. If you stand beneath the high-tension wires, you can hear the buzz of electricity passing, but from space you only see the city lights at the end of the line.
Similarly, the electricity that lights up the auroras is produced far away on the sun and carried invisibly on the solar "wind." Man-made space probes have instruments that observe the solar storms that generate it and that measure its density in protons/cubic centimeter. In the Earth's magnetosphere, the auroral current system consists of plasma cables, filaments and sheets. These plasma structures, which follow the same behavior in space as they do in the lab, transfer the energy from Earth's equatorial plasma toroid to the auroral zones, lighting up the polar regions.
Both the city lights and the auroras are created by electric circuits. If there is no circuit, there will be no light. Our experience tells us where to look for every stage of the circuit that connects city lights. And we know that if we break that circuit at any point along its way, the city lights will fail. But we've only had the technology to observe the auroral circuits in space for a few decades. How long before our new experiences find a way to trace the circuits of all the electrical currents in space?
thanks!
Thanks g. I’d seen it and pinged it, but had forgotten about it. :’)
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