Novel Camera Set to Produce the First Direct Images of Exoplanets

NOVEL CAMERA SET TO PRODUCE THE FIRST DIRECT IMAGES OF EXOPLANETS
From Lori Stiles, UA News Services, 520-621-1877
June 22, 2004

A University of Arizona astronomer and his collaborators are using a novel
camera to hunt for extrasolar planets.

Their camera has already made stunning images of Saturn's moon, Titan, and
discovered an object just 27 times the mass of Jupiter. They hope the camera
will be the first to directly photograph faint gas-giants similar to Jupiter
in solar systems beyond our own.

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Contact Information
Laird M. Close 520-626-5992
Related Web sites listed at end of release
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The project is being funded over the next five years by a $545,000 National
Science Foundation award. NSF awarded the highly competitive Faculty Early
Career Development (CAREER) grant to Associate Professor Laird M. Close. The
CAREER program is a foundation-wide activity that offers the NSF's most
prestigious awards for new faculty members. The CAREER program recognizes
and supports the early career-development activities of those
teacher-scholars who are most likely to become the academic leaders of the
21st century.

Close and his graduate students, Beth Biller and Eric Nielsen, will use
Close's custom SDI (Simultaneous Differential Imager) cameras on two big
telescopes in Arizona and Chile to hunt for planets orbiting other stars.

Astronomers have indirectly detected more than 100 planets circling stars in
other solar systems, but none have yet been directly imaged.
Close plans to solve the problem of detecting faint planets near their
billion-times-brighter stars by using a unique, high-contrast, SDI camera.
The camera uses adaptive optics, which remove the blurring effects of the
Earth's atmosphere and produce extremely sharp images.

The SDI camera splits light from a single object into four identical images,
then passes the resulting beams through four slightly different
methane-sensitive filters. When the filtered light beams hit the detector
array, astronomers can subtract the images so the bright star disappears,
revealing the massive, methane-rich planet.

Professor Close and his collaborators will use SDI to examine 100 young
northern- and southern-hemisphere stars that are near Earth. They will hunt
for planets as small as 3 Jupiter masses (three times the mass of Jupiter)
that are as close as 5 AU from their stars. This is about the distance
between Jupiter and the sun. One "AU," or astronomical unit, is the distance
between Earth and the sun.

The northern SDI camera will be used on the 6.5-meter, UA/Smithsonian, MMT
telescope on Mount Hopkins, Ariz, in collaboration with Steward Observatory
astronomer Donald McCarthy. The southern SDI camera has been installed at
the European Southern Observatory's (ESO) 8.2-meter Very Large Telescope
(VLT) in Chile. Astronomers Rainer Lenzen and Wolfgang Brandner of the
Max-Planck-Institut f�r Astronomie (MPIA), Heidelberg, Germany, and Markus
Hartung of ESO collaborate on this project.

"Our imaging technique should be about 100 times more sensitive than current
imaging technologies," Close said. "This will allow us to directly detect
sub-stellar companions to nearby stars. It also will allow us to look for
planets in regions where we have not been able to search before but that are
likely to be rich with massive planets," he added. "If we find such planets,
they can help tell us if those stars have Earth-like planets."

In collaboration with Mark McCaughrean of the Astrophysical Institute
Potsdam, Close and his German colleagues discovered a 27 Jupiter mass object
named Epsilon Indi Bb the first night they used the camera. They reported
the finding the Journal Astronomy & Astrophysics.

Epsilon Indi Bb is a methane-rich object a mere 12 light years from the sun
and just 2.6 AU away from a 43 Jupiter-mass object. Epsilon Indi Ba, that
McCaughrean and others reported in another paper in 2003.

"Although a bit too massive to be a true planet, Epsilon Indi Bb is just
slightly hotter than a convection oven," Close said. "It is the coolest,
closest binary 'brown dwarf' ever imaged."

Brown dwarfs are too small to shine like a star but too big to be called
planets.

"This discovery will play an important role in understanding the nature and
physics of brown dwarfs," Close said.

Last February, during commissioning of the SDI camera in Chile, Hartung,
Close and their European colleagues produced the sharpest images ever taken
of Saturn's largest moon, Titan.

One of the super-sharp images shows red surface features and dark surface
areas on the moon, which is ringed with a haze of Titan's methane-rich
atmosphere, shown as blue.

The image has a 360 kilometer resolution at the distance of Saturn, then at
about 8.5 AU from Earth. That is, the SDI camera resolves a 200-mile
distance on Titan from about 800 million miles away.

"The 'red' features may be the icy surface of Titan," Close said. "The dark
areas may be liquid methane and ethane lakes."

Hartung has also made a movie of Titan rotating, based on SDI data. It is
online at http://www.eso.org/outreach/press-re.../vid-06-04.avi

The Journal Astronomy & Astrophysics will publish a 2004 paper by Hartung,
Tom Herbst of MPIA, and the rest of the SDI team on these Titan images.

* * *Related Web sites * **
Titan SDI Images Press Release
http://eso.org/outreach/press-rel/pr-2004/pr-09-04.html

SDI Camera Page
http://exoplanet.as.arizona.edu/~lcl.../SDI_NACO.html

Titan movie made from SDI images
http://www.eso.org/outreach/press-re.../vid-06-04.avi

Laird Close's home page
http://athene.as.arizona.edu/~lclose/

On a sunny day (22 Jun 2004 14:55:56 -0700) it happened
(Ron) wrote in :

Their camera has already made stunning images of Saturn's moon, Titan, and
discovered an object just 27 times the mass of Jupiter.

Also in the solar system? hehehe
Planet X has been found!
But it is bigger then I expected..

"Ron" wrote in message
om...

Methane images, eh? "Gentlemen, we have discovered
the planet Fart."