[meteorite-list] Jupiter Impact: Mystery of the Missing Debris

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Fri, 11 Jun 2010 16:17:04 -0700 (PDT)
Message-ID: <201006112317.o5BNH4sQ025051_at_zagami.jpl.nasa.gov>

http://science.nasa.gov/science-news/science-at-nasa/2010/11jun_missingdebris/

Jupiter Impact: Mystery of the Missing Debris
NASA Science News

June 11, 2010: On June 3rd, 2010, something hit Jupiter. A comet or
asteroid descended from the black of space, struck the planet's
cloudtops, and disintegrated, producing a flash of light so bright it
was visible in backyard telescopes on Earth. Soon, observers around the
world were training their optics on the impact site, waiting to monitor
the cindery cloud of debris which always seems to accompany a strike of
this kind.

They're still waiting.

"It's as if Jupiter just swallowed the thing whole," says Anthony Wesley
of Australia, one of two amateur astronomers who recorded the initial
flash. The other, Christopher Go of the Philippines, says "it was
thrilling to see the impact, but the absence of any visible debris has
got us scratching our heads."

Indeed, it is a bit of a puzzle. "We've seen things hit Jupiter before,"
says planetary scientist Glenn Orton of JPL, "and the flash of impact
has always been followed by some kind of debris."

For instance, when fragments of Comet Shoemaker-Levy 9 hit Jupiter in
1994, each major flash observed by NASA's Galileo spacecraft produced a
"bruise," a murky mixture of incinerated comet dust and chemically
altered Jovian gas twisting and swirling among the native clouds. Just
last year, in July 2009, Wesley discovered a similar mark
thought to be debris from a rogue asteroid crashing into the planet.

So where is the debris this time?

A possibility offered by some observers is that the flash wasn't an
impact at all. Maybe Go and Wesley witnessed a giant Jovian lightning bolt.

"I consider that very, very unlikely," says Orton. "NASA spacecraft have
seen lightning on Jupiter many times before, but only on the planet's
nightside. This dayside event would have to be unimaginably more
powerful than any previous bolt we've seen. Even Jupiter doesn't produce
lightning that big."

Nor could it be a flash of lightning in Earth's atmosphere fortuitously
happening in front of Jupiter. Simultaneous observations of the same
flash from widely-spaced observatories in Australia and the Philippines
rule that out. For the same reason, it couldn't be, say, a terrestrial
meteor or any other phenomenon in the atmosphere of Earth.

In short, the flash really happened at Jupiter.

Curiously, the impactor (if indeed this was an impact event) struck
right in the middle of Jupiter's South Equatorial Belt (SEB), one of the
two broad stripes that girdle the planet. This is "curious" because the
SEB itself vanished earlier this year. Orton has proposed that the
missing belt still exists, it's just temporarily hidden underneath
some high-altitude cirrus clouds.

Could those very same clouds be hiding the impact debris?

He doesn't think so. "The flash came from an altitude above any cirrus
layer, so the debris should be plainly visible - if there is any."

The best remaining hypothesis is that the impactor was small, packing
just enough punch to make a flash, but without leaving much debris.

One thing is sure: "Jupiter is getting hit more than we expected," says
Don Yeomans, head of NASA's Near-Earth Object program of JPL. "Back in
the days of Shoemaker-Levy 9 (SL-9), we calculated that we should see an
impact on Jupiter once every hundred years or so. We considered
ourselves extraordinarily lucky to witness the SL-9 event."

"But look where we are now," he continues. "Anthony Wesley has observed
two impacts within the past 12 months alone. It's time to revise our
impact models [particularly for small impactors]."

Clearly, researchers have a lot to learn, not only about how often
Jupiter gets hit, but also what happens when the strikes occur.

"We're continuing the search for debris at a number of major
observatories, including Hubble," says Orton. Future observations
sensitive to very small amounts of debris and to gases pulled up from
Jupiter's deeper atmosphere may yet reveal what happened to the flashy
impactor of June 3rd???or lead researchers in new directions entirely.

Stay tuned!


Author: Dr. Tony Phillips | Credit: Science at NASA
Received on Fri 11 Jun 2010 07:17:04 PM PDT