For the Max-Planck-Institutes Press office
(A.Graps 20 April 2000)

Abstract:
An international team of scientists led by the Max-Planck-Institut
fuer Kernphysik in Heidelberg, Germany, after analyzing data from the
spacecraft Galileo, have identified Jupiter's moon Io as the dominant
source of the streams of dust emanating from the Jupiter system.


EMBARGOED UNTIL MAY 4, 2000. PLEASE DO NOT RELEASE TO THE PRESS BEFORE THEN.

Max Planck Institute of Nuclear Physics
Heidelberg, Germany

Contacts:
Amara Graps
Max Planck Institute of Nuclear Physics
Heidelberg, Germany
Phone: (+49 62 21) 516 - 543
Fax: (+49 62 21) 516 - 324
Amara.Graps@mpi-hd.mpg.de
http://galileo.mpi-hd.mpg.de/~graps

Eberhard Gruen
Max Planck Institute of Nuclear Physics
Heidelberg, Germany
Phone: (+49 62 21) 516 - 478
Fax: (+49 62 21) 516 - 324
Eberhard.Gruen@mpi-hd.mpg.de
http://galileo.mpi-hd.mpg.de/~gruen

Mihaly Horanyi
Laboratory for Atmospheric and Space Physics
University of Colorado
Boulder, CO, USA
hone: (+01 303) 492 - 6903
Fax: (+01 303) 492 - 6946
horanyi@styx.colorado.edu
http://styx.colorado.edu/~horanyi/

Harald Krueger
Max Planck Institute of Nuclear Physics
Heidelberg, Germany
Phone: (+49 62 21) 516 - 563
Fax: (+49 62 21) 516 - 324
Harald.Krueger@mpi-hd.mpg.de
http://galileo.mpi-hd.mpg.de/~krueger


The Jovian Dust Streams: Io's Volanoes Drizzle Dust into the Solar System


A research article about this work appears in the journal Nature
May 4, 2000.


An international team of scientists led by the Max-Planck-Institut
fuer Kernphysik (Max Planck Institute of Nuclear Physics) in
Heidelberg, Germany, has identified Io as the dominant source of the
Jovian dust streams. The scientists: Amara Graps, Eberhard Gruen,
Harald Krueger, Andreas Heck, Sven Lammers (MPI-K, Heidelberg,
Germany), Hakan Svedhem (ESTEC, Noordwijk, The Netherlands), and
Mihaly Horanyi (LASP, Boulder, USA) analyzed the periodocities in the
dust impacts signal from the Galileo spacecraft, and found Io's
fingerprint plainly visible.

The Jovian dust streams are high rate bursts of submicron sized
particles traveling in the same direction from a source in the
Jovian system and observed in interplanetary space out to 2AU. The
Jovian dust streams were first discovered in 1992 when the Ulysses
spacecraft dust detector observed the collimated streams during its
Jupiter flyby. Since 1995, the Galileo spacecraft dust detector,
which is a twin to the Ulysses' dust instrument, has observed the
Jovian dust streams, both on its way to Jupiter, and while the
spacecraft has been in the Jupiter system. ``The escape of dust from
the Jovian system in 1992 was a total surprise," said Mihaly
Horanyi, a dust plasma physicist in Colorado, involved in Jovian
dust streams research since the streams' discovery.

Figure 1: http://galileo.mpi-hd.mpg.de/~graps/nature2000/streams_big.jpg
Figure 1 Caption: Sketch of one of Galileo's orbital trajectories from
late-1997 overlaid with trajectory results from a dust stream
particles model by Horanyi and co-workers. The submicron dust particles
from Io's volcanoes are strongly attracted to Jupiter's magnetic field, and
they move in a warped sheet around Jupiter, as Jupiter rotates on its axis.
The Galileo orbital trajectory is indicated with a solid blue line and
the dust streams' impact direction is indicated with green arrows.

The conclusion that Io could be a source of the Jovian dust streams
was logical, but finding hard evidence for this connection proved
difficult and elusive for the dust scientists.  Earlier
investigations of the source of the Jovian dust streams considered
Jupiter's rings (main, halo, or gossamer ring), comet Shoemaker-Levy
9, and the volcanoes on Io. After several sources were ruled
out, the investigators couldn't absolutely distinguish between a
Jupiter gossamer ring source and an Io source, even though an Io
model fit the data.

``Now, for the first time we have direct evidence that Io is the
dominant source of the Jovian dust streams," said Amara Graps
(MPI-K, Heidelberg, Germany), who is the first author of the Nature
paper. Graps, and her coauthors in Heidelberg, Noordwijk, and
Boulder applied frequency analysis to several years of Galileo dust
detector data to show that the dust stream particles' motion is
strongly influenced by Jupiter's magnetic field with a unique
signature that could only be present if Io were the dominant source
of the dust streams.

The dynamics and charging of dust in planetary magnetospheres is a
special laboratory to study the small-scale physical processes that
may have shaped our solar system. Submicron particles are dominated
by electromagnetic forces. Therefore, small, charged particles can
be considered as astrophysical tracers of the magnetic field
conditions. ``The dust from the Jovian dust streams is clearly
magnetically-controlled dust," said Eberhard Gruen, who is also
involved in the research.  ``Dust particles carry information about
charging processes in regions of the Jovian magnetosphere, where
information is otherwise sparse or unknown." Gruen, who has been
leading interplanetary dust research for several decades, built the
dust detectors that are currently flying on the Galileo, Ulysses,
Cassini, and the Gorid spacecraft.

Figure 2: http://galileo.mpi-hd.mpg.de/~graps/nature2000/io_big.jpg
Figure 2 Caption: An image of Io from Galileo's orbit 9, taken by the
Solid State Imaging (CCD) system in June 1997, where we see the dusty
plume of one of Io's volcanoes:  Pillan erupting against the limb of Io.
The 2 km (1.2 mi) resolution image shows a plume 140 kilometers (86 miles)
high, and was also detected by the Hubble Space Telescope.  This explosion 
left a "black eye" of dark silicates that covered an area larger than
Germany. Image Catalog # PIA0108, Courtesy of NASA-JPL.
(http://photojournal.jpl.nasa.gov/)


These new results provide a useful window on Io. Now dust in-situ
measurements can be an effective way to monitor Io's volcanoes
plume activity, providing more complete coverage and a complement to
the Galileo and Earth-based image observations.

These new results also provide more pieces to the story of our solar
system evolution. The lifetimes of dust particles in our solar
system are very short compared to the lifetime of the Sun. The
source of the Jovian dust streams is a minor dust source compared to
collisions of the main belt asteroids and comet activity,
nevertheless, it adds to the variety of dust sources in the solar
system. At the dust streams high velocity, the Jovian dust stream
particles can also leave the solar system to slightly populate the
local interstellar medium.

The scientists will have more visions of the Jovian dust streams in
December 2000, when the streams are observed in a rare and unique
opportunity by two spacecraft simultaneously. Cassini's Cosmic Dust
Analyzer (CDA) will observe the streams at the same time as the
Galileo dust instrument, during the Cassini-Jupiter flyby.


Note
The authors of this work are Amara Graps, Eberhard Gruen (MPI-K,
Heidelberg, Germany), Hakan Svedhem (ESTEC, Noordwijk, The
Netherlands), Mihaly Horanyi (LASP, Boulder, USA), and Harald Krueger,
Andreas Heck, Sven Lammers (MPI-K, Heidelberg, Germany).  This work
was supported by Deutsches Zentrum fuer Luft-und Raumfahrt E.V. (DLR).


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More information is available at the following links:

This Jovian Dust Streams May 4 Nature Press Release:
http://galileo.mpi-hd.mpg.de/~graps/nature2000/press.html

Some Jovian dust stream history:
http://galileo.mpi-hd.mpg.de/~graps/nature2000/history.html

Technical Links and References:
http://galileo.mpi-hd.mpg.de/~graps/nature2000/references.html

The MPI-K, Heidelberg Dust Group Website:
http://galileo.mpi-hd.mpg.de/
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