Posted on 12/10/2003 3:54:24 AM PST by petuniasevan
Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.
Explanation: Cassini, a robot spacecraft launched in 1997 by NASA, is close enough now to resolve many rings and moons of its destination planet: Saturn. The spacecraft has now closed to within a single Earth-Sun separation from the ringed giant. Early last month, Cassini snapped the contrast-enhanced color composite pictured above. Many features of Saturn's rings and cloud-tops now show considerable detail. When arriving at Saturn in July 2004, the Cassini orbiter will begin to circle and study the Saturnian system. Several months later, a probe named Huygens will separate and attempt to land on the surface of Titan.
Extensive destruction powers solar explosions
NASA NEWS RELEASE
Posted: December 9, 2003
Large-scale destruction of magnetic fields in the sun's atmosphere likely powers enormous solar explosions, according to a new observation from NASA's Ramaty High Energy Solar Spectroscopic Imager (RHESSI) spacecraft.
The explosions, called solar flares, are capable of releasing as much energy as a billion one-megaton nuclear bombs. The destruction of magnetic fields, called magnetic reconnection, was a leading theory to explain how solar flares could suddenly release so much energy, but there were other possibilities as well. The new picture from RHESSI confirms large-scale magnetic reconnection as the most likely scenario.
These are false-color images of solar X-rays detected by RHESSI. White represents the brightest areas, and blue the dimmest. For each row, the RHESSI image is shown on the left and the same image is shown on the right with an inference of the magnetic geometry. RHESSI first observed an X-ray arch with a hot blob at its top (top row, left image). The blob may have been associated with a magnetic X-point, where oppositely directed magnetic fields come into contact and very slow reconnection can occur (top row, right). The blob separated from the arch when the most energetic X-rays from the flare rapidly brightened (middle row, left). This separation was probably associated with the collapse of the magnetic X-point to a thin region of rapid magnetic reconnection (middle row, right). Two minutes later, the X-ray blob sped away from the Sun (bottom row, left). This was associated with the ejection of the upper magnetic structure from the Sun and the upward elongation of the reconnection layer (bottom row, right). Credit: NASA |
Magnetic reconnection can happen in the solar atmosphere because it is hot enough to separate electrons from atoms, producing a gas of electrically charged particles called plasma. Because plasma is electrically charged, magnetic fields and plasma tend to flow together. When magnetic fields and plasma are ejected from the sun, the ends of the magnetic fields remain attached to the surface. As a result, the magnetic fields are stretched and forced together until they break under the stress, like a rubber band pulled too far, and then reconnect -- snap -- to a new shape with less energy.
The thin region where they reconnect is called the reconnection layer, and it is where oppositely directed magnetic fields come close enough to merge. Magnetic reconnection could power a solar flare by heating the sun's atmosphere to tens of millions of degrees, and accelerating electrically charged particles that comprise the plasma (electrons and ions) to almost the speed of light.
At such high temperatures, solar plasma will shine in X-rays, and RHESSI observed high-energy X-rays, emitted by plasma, heated to tens of millions of degrees in a flare on April 15, 2002. The hot, X-ray emitting plasma initially appeared in the RHESSI images as a blob atop an arch of relatively cooler plasma protruding from the sun's surface. The blob-and-arch structure is consistent with reconnection, because the X-ray blob could be heated by reconnection, and the part of the magnetic field that breaks and snaps back to the solar surface will assume an arch shape.
These structures have been seen before and hinted at reconnection, but the observations were not conclusive. However, as RHESSI made images of the 20-minute long flare, over the course of about four minutes during the most intense part of the flare, the X-ray emitting blob exhibited two characteristics consistent with large-scale magnetic reconnection.
First, the blob split in two, with the top part ultimately rising away from the solar surface at a speed of about 700,000 miles per hour, or around 1.1 million km/hr. This is expected if extensive reconnection is occurring, because as the magnetic fields stretch, the reconnection layer also stretches, like taffy being pulled. Plasma heated by reconnection squirts out of the top and bottom of the reconnection layer, forming the two X-ray blobs in the RHESSI pictures, when the top and bottom are sufficiently far apart to be resolved as distinct areas.
Second, in both blobs, the area closest to the apparent reconnection layer was hottest, and the area farthest away was coolest, according to temperature measurements by RHESSI. This is also expected if reconnection is occurring, because, as the magnetic fields break and reconnect, other magnetic fields nearby move in to the reconnection region and reconnect as well, since the overall, large-scale field continues to stretch. Thus, plasma is continuously heated and blasted out from the reconnection layer. The plasma closest to the reconnection area is the most recently expelled and therefore the hottest. Plasma farther away was ejected earlier and had time to cool.
"This temperature gradient in the hot plasma was the clincher for me," said Dr. Gordon Holman, a Co-Investigator on RHESSI and co-author of the paper, at NASA's Goddard Space Flight Center, Greenbelt, Md. "If some other process was powering the flare, the hot plasma would not appear like this."
Yikes! That'sa some spicy a'meat balls!!!
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