[meteorite-list] Headless Comets Survive Plunge Through Sun's Atmosphere

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Thu Apr 22 10:22:36 2004
Message-ID: <200306110002.RAA27510_at_zagami.jpl.nasa.gov>

http://www.gsfc.nasa.gov/news-release/releases/2003/03-65.htm

Bill Steigerwald June 10, 2003
NASA Goddard Space Flight Center
(301) 286-5017

Release 03-65

HEADLESS COMETS SURVIVE PLUNGE THROUGH SUN'S ATMOSPHERE

A run through the jungle is too easy; for the ultimate reality show
contest, try a race through the Sun's atmosphere, where two comets
recently lost their heads. The tails from a pair of comets survived a
close encounter with the Sun, even after the Sun's intense heat and
radiation vaporized their heads (nuclei and coma), an extremely rare
event photographed by the Solar and Heliospheric Observatory (SOHO)
spacecraft.

On May 24, 2003, a pair of comets arced in tandem towards the Sun,
their paths taking them to just 0.1 solar radii above the Sun's
surface, deep within the searing multimillion-degree solar atmosphere
(corona).

They belong to the Kreutz family of sun-grazing comets, often seen by
the SOHO spacecraft while diving towards their final rendezvous with
the Sun. But as in humans, twins are rare. Even more so, this pair
showed another very unusual trait: What looks like a faint tail (or
"puff of smoke") can be seen moving away from the Sun, seemingly
emanating from a point in the orbit beyond the comet's closest
approach. Normally, sungrazers simply fade and disappear at an
earlier stage, obliterated by the Sun's intense heat and radiation
pressure.

Another pair of Kreutz sungrazers with such a "headless tail" was
observed in June 1998, when the observing geometry was very similar.
But out of more than 600 sungrazing comets observed during more than
six years by SOHO, this is only the third showing any signs of such
behavior. However, this seems now likely to confirm the existence of
such comets.

"Everyone who's seen this agrees it's a very interesting
observation," said Dr. Douglas Biesecker, a solar researcher at the
National Oceanic and Atmospheric Administration's Space Environment
Center in Boulder, Colorado, and the head of SOHO's comet discovery
program. SOHO has become the most prolific comet finder in history.

The tail is most likely the dusty remains of the comet's nucleus,
being pushed out by sunlight (radiation pressure) after all the ice
in the nucleus has evaporated, thus eliminating the processes
maintaining a bright coma surrounding the nucleus. Studies of the
dust cloud may reveal clues to the size distribution of the dust
grains.

"The fact that the tail 'holds together' so well probably means that
the dust is mostly the same size," said Biesecker.

Comets are chunks of ice and dust that zoom around the solar system
in elongated orbits. This "dirty snowball" is the nucleus of the
comet; it ranges in size from a large boulder to a large city. As the
comet gets close to the Sun, solar heat and light liberate gas and
dust from the nucleus, forming the coma, which is an extensive,
bright cloud around the nucleus, and one or more tails. A comet's
dust tail can be millions of miles (kilometers) long and is pushed
away from the Sun by sunlight. Comets also have a tail of
electrically charged particles (ions) that is usually fainter and is
pushed away from the Sun by the solar wind, a thin stream of
electrified gas that blows constantly from the Sun. Both tails point
away from the Sun, even for comets that are traveling back outwards
in the solar system. Studies of the tails can reveal changes in solar
wind structure and radiance of the Sun.

SOHO is a project of international cooperation between the European
Space Agency and NASA. For images and movies of this event, refer to:

http://soho.nascom.nasa.gov/pickoftheweek/old/27may2003/

-end-
Received on Tue 10 Jun 2003 08:02:03 PM PDT


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