[meteorite-list] Scientists See Better, Fainter with New Keck Laser Guide Star

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Tue Jan 10 15:41:09 2006
Message-ID: <200601101852.k0AIqkD22510_at_zagami.jpl.nasa.gov>

http://www.keckobservatory.org/news/science/060110_lgs/index.html
                      
Scientists See Better, Fainter with New Keck Laser Guide Star
Keck Observatory

WASHINGTON, D. C. (January 10, 2006) A new sodium laser is giving 50
times more sky coverage to the atmospheric-correcting technology known
as adaptive optics on the Keck II telescope at Mauna Kea, Hawaii. The
laser lets scientists explore most of the sky with adaptive optics and
gives them the capability to study objects that were previously too
faint to be seen with the system. Since 1999, Keck Adaptive Optics has
provided 10 times more resolving power than what could otherwise be
achieved from the ground. The results are producing infrared images from
the ground comparable - and often better - than those taken from space.

"This has been the most exciting technological and scientific
breakthrough for the Observatory in the last decade. It may forever
change the way we do astronomy from the ground," said W. M. Keck
Observatory Director Fred Chaffee. "We are entering a new, extraordinary
era of discovery."

After just one year of regular scientific use, the Keck Laser Guide Star
Adaptive Optics system is producing spectacular results and advancing
research in several fields of astronomical study. Findings include the
discovery of new asteroids, moons and planetoids in our solar system,
the detection of new brown dwarf binary systems -- including a strange
new kind of binary, observations of physical processes taking place near
a supermassive black hole, and new findings about extremely distant
supernovae and young galaxies.

The technique of adaptive optics uses visible light from a bright star
to measure and correct for atmospheric distortions at infrared
wavelengths. But only about two percent of the sky has stars bright
enough to use with adaptive optics. The Keck Laser Guide Star system
overcomes this limitation by creating an artificial star anywhere in the
sky. The W. M. Keck Observatory is the only 8 10 meter class facility in
the world currently providing this capability to observers.

"The wish list for astronomers is pretty simple," said Dr. David Le
Mignant, adaptive optics scientist at the W. M. Keck Observatory.
"First, they want the highest-quality images that can possibly be
obtained. Second, they want to look anywhere they want to in the sky.
The laser guide star makes both these wishes come true."

Operating at nearly 1,000 times a second, the Keck adaptive optics
system minimizes the blurring effects of Earth's atmosphere to provide
infrared images 10 times better than what can be achieved from the
ground. Without any correcting technology, the best telescopes on Earth
are limited to an average "seeing" ability, or resolving power, of about
0.5 arcseconds, the equivalent of being able to distinguish an object
the size of a blueberry from 2.5 miles (4 km) away. But with adaptive
optics, atmospheric blurring is removed, producing a resolving power of
about 50 milliarcseconds or better. This improvement is like looking at
a penny from 2.5 miles away and being able to read the words, "ONE CENT"
and "Liberty" stamped on the coin.

"We are shattering a limitation for ground-based observations --
astronomers can now uncover and study fine structures in extremely faint
objects anywhere, within and beyond our galaxy, " said Dr. Le Mignant.
"This new data will particularly complement present deep sky surveys
which study the formation of galaxies in the universe."

More than 21 scientific results made possible with the Keck Laser Guide
Star system are presented today at the 207th meeting of the AAS in
Washington D.C. Among the many new significant findings discussed at
Special Session 98, "Seeing the Universe in a New (Sodium) Light":

    * In the distant regions of our solar system, scientists at Caltech
      have used the Keck Laser Guide Star to discover three new
      satellites orbiting some of the largest objects in the Kuiper
      belt. The surprising properties of these moons suggest that they
      are formed very differently from the tiny moons known to orbit
      smaller Kuiper Belt Objects. (A. Bouchez, Caltech)

    * At the center of our own Milky Way galaxy, the hostile environment
      around the supermassive black hole should make it difficult for
      stars to form, but a group of massive young stars has been
      detected and their origins are puzzling scientists. The problem
      has been dubbed "the paradox of youth." Now, UCLA scientists are
      able to measure how these young stars move across the sky with an
      unparalleled precision of only two kilometers per second, and
      determine, for the first time, the orbit of each of the young
      stars located more than a few light months from the black hole.
      Scientists are using the stars' orbits, which retain an imprint of
      their origin, to understand how and where these young stars may
      have formed. (J. Lu, UCLA)

    * Also in the Milky Way, scientists at the University of Hawaii are
      discovering new ultracool brown dwarf binary systems, including a
      strange new kind of binary never seen before. (M. Liu, UH-IfA)

    * Scientists at UCSC and the Supernova Cosmology Project observed a
      supernova in a galaxy as it appeared when the universe was only 40
      percent its current age (z=1.3). The Keck Laser Guide Star system
      allowed the team to study the faint system and resolve the
      supernovae from the galaxy core, separated by only 0.4 arcseconds.
      The discovery was made as part of a major, long-term project
      called "Center for Adaptive Optics Treasury Survey" or CATS, a
      project that is looking at deep Hubble galaxy fields with the Keck
      Laser Guide Star System. (J. Melbourne, Lick/UCSC)

"Major advances in astronomy are often the driven by having new
technologies to explore the heavens," said Michael Liu of the Institute
for Astronomy at the University of Hawaii. "Through years of effort and
dedication of many people, the Keck system is allowing us to see the
whole of the universe in a new (sodium) light."

More than 20 percent of all available observing nights through July 2006
on the Keck II telescope will use the sodium laser. Laser guide star
systems do not outperform natural guide stars, but rather take over in
the faint skies where sufficiently bright stars do not exist. With
bright objects of magnitude 10 or greater, natural guide star systems
still provide slightly better images, and will be used for about 30
percent of the adaptive optics research at W. M. Keck Observatory.

The Future
Regularly using sodium lasers with adaptive optics is in its early
stages, but laser guide stars are being developed for most major
observatories, most notably the European Southern Observatory's Very
Large Telescope, the Gemini North and Gemini South telescopes and the
National Astronomical Observatory of Japan's Subaru Telescope. Plans are
also underway to install a new laser guide star system on the Keck I
telescope within the next three years, and also to improve the
efficiency and reliability of the existing laser system on Keck II.

Acknowledgements

The W. M. Keck Foundation provided major funding for the construction of
the twin 10-meter Keck telescopes and for the adaptive optics and laser
guide star systems. Additional funding for the Laser Guide Star Adaptive
Optics system was provided by NASA, Lawrence Livermore National
Laboratory (LLNL) and the Center for Adaptive Optics. The Laser Guide
Star Adaptive Optics system was implemented by a team at W. M. Keck
Observatory. The sodium laser was developed at LLNL. The W. M. Keck
Observatory is managed by the California Association for Research in
Astronomy, a non-profit 501 (c) (3) corporation whose board of directors
includes representatives from Caltech, the University of California and
NASA.
Received on Tue 10 Jan 2006 01:52:46 PM PST


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