We are in the process of having several
satellites observing the sun at close range.
This means that they will be able to see many comets that are rather small
crash and burn through the solar atmosphere.
It can and will be a great source of data.
It is also pretty clear why there
is so much elemental carbon associated with comets. Starting originally as methane snow balls,
the comets on each pass heats a fresh supply of methane through the
disassociation temperature to drive off the hydrogen. This leaves carbon behind. Thus when a well travelled comet passes by
the sun and gets charged up again, we get a tail of charged carbon crystals trailing
behind.
A direct hit on Earth would load
a large amount of carbon into out atmosphere as happened with Tunguska
and the 12,900 BP comet.
Comet Corpses in the Solar Wind
Comet C/2011 N3 fragments as it passes through the sun's atmosphere on
July 6, 2011. Credit: Solar Dynamics Observatory/K. Schrijver et al [larger
image]
Jan. 20, 2012: A paper published in today's issue of Science raises
an intriguing new possibility for astronomers: unearthing comet corpses in the
solar wind. The new research is based on dramatic images of a comet
disintegrating in the sun's atmosphere last July.
Comet Lovejoy grabbed headlines in Dec. 2011 when it plunged into the
sun's atmosphere and emerged again relatively intact. But it was not the
first comet to graze the sun. Last summer a smaller comet took the same trip
with sharply different results. Comet C/2011 N3 (SOHO )
was completely destroyed on July 6, 2011, when it swooped 100,000 km above the
stellar surface. NASA's Solar Dynamics Observatory (SDO) recorded the
disintegration.
"For the first time, we saw a comet move across the face of the
sun and disappear," says Dean Pesnell, a co-author of the Science paper
and Project Scientist for SDO at the Goddard
Space Flight
Center . "It
was unprecedented."
In Jan. 20th issue of Science, the research team reported their
analysis of the SDO images.
A key finding was the amount of material deposited into the sun's
atmosphere. "The comet dissolved into more than a million tons of
electrically charged gas," says Pesnell. "We believe these
vapors eventually mixed with the solar wind and blew back into the solar
system."
Pesnell says it might be possible to detect such "comet
corpses" as they waft past Earth. Comets are rich in ice (frozen H2O), so
when they dissolve in the hot solar atmosphere, the gaseous remains contain
plenty of oxygen and hydrogen. A solar wind stream containing extra oxygen
could be a telltale sign of a disintegrated comet. Other elements abundant in
comets would provide similar markers.
Comet corpses are probably plentiful. There's a busy family of
comets known as "Kreutz sungrazers," thought to be fragments of a
giant comet that broke apart hundreds of years ago. Every day or so, SOHO sees one plunge into the sun and vanish. Each
disintegration event creates a puff of comet vapor that might be detectable by
spacecraft sampling the solar wind.
Why bother? Researchers are beginning to think of sungrazers as 'test
particles' for studying the sun's atmosphere--kind of like tossing rocks into a
pond. A lot can be learned about the pond by studying the ripples.
Indeed, SDO observed some extraordinary interactions between the sun
and the doomed comet. As C/2011 N3 (SOHO) moved through the hot corona,
cold gas lifted off the comet's nucleus and rapidly (within minutes) warmed to
more than 500,000K, hot enough to shine brightly in SDO's extreme ultraviolet
telescopes.
"The evaporating comet gas was glowing as brightly as the sun
behind it," marvels Pesnell.
The gas was also rapidly ionized by a process called "charge
exchange," which made the gas responsive to the sun's magnetic field.
Caught in the grip of magnetic loops which thread the solar corona, the comet's
ionized tail wagged back and forth wildly in the moments before final
disintegration.
Watching this kind of sun-comet interaction could reveal new things
about the thermal and magnetic structure of the solar atmosphere.
Likewise, measuring how long it takes for "comet corpses" to reach
Earth, and then sampling the gases when they arrive, could be very informative.
"Before SDO, no one dreamed we could observe a comet disintegrate
inside the sun's atmosphere," says Pesnell who confesses that even he was
a skeptic. But now, "I'm a believer."
The original research described in this story may be found in the Jan.
20th edition of Science: Destruction of
Sun-grazing comet C/2011 N3 (SOHO) by C. J. Schrijver, J. C. Brown, K.
Battams, P. Saint-Hilaire, W. Liu, H. Hudson, and W. D. Pesnell
it's been amazing, being able to watch the sun so closely
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