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First
image from Phoenix Mars Lander camera received on Earth
Sept. 07, 2007
This
false color image from the robotic arm camera shows the robotic
arm scoop inside the biobarrier.
Credit:
UA/NASA/JPL
A camera flying aboard The
University of Arizona-led Phoenix Mars Lander took its first
picture during cruise and sent it back to Earth on Sept. 6. The
lander's Robotic Arm Camera took the photo looking into the
Robotic Arm's scoop. Both instruments are encased in a protection
biobarrier, to ensure no Earth organisms are carried to Mars.
"It is a nice, clean
picture with good sharp focus. One of these days it will be
filled with Martian dirt," said Peter Smith, Phoenix
principal investigator at the UA. "We have special pride in
this, as it is a UA-German product."
The Robotic Arm
Camera took an image of the Robotic Arm scoop using its red LED
(Light-Emitting Diode) lamp. Human eyes see this image only in
shades of gray, so the picture has been enhanced in false color
to better represent what the camera sees.
Images from the
Robotic Arm Camera, one of five imaging instruments on the
lander, will be the only pictures taken and returned to Earth
until Phoenix approaches and lands on Mars on May 25, 2008.
Additional images will be taken by the Robotic Arm Camera later
in the cruise stage.
The Robotic Arm Camera check was one
of a series of instrument tests being completed as Phoenix
cruises toward the red planet. Phoenix was about 57 million miles
from Earth when the image was sent back. It is traveling at
76,000 miles per hour in relation to the sun.
On Mars,
the Robotic Arm will dig trenches, scoop up soil and water-ice
samples and deliver them to several instruments on the lander's
deck for chemical and geological analysis.
The Robotic
Arm Camera, built by the UA and Max Planck Institute, is attached
to the Robotic Arm just above the scoop and will provide
close-up, full-color images of the Martian surface, prospective
soil and water-ice samples, samples collected in the scoop before
delivery to the lander's science deck, and of the floor and side
walls of the trenches. Phoenix's Robotic Arm was provided by the
Jet Propulsion Laboratory, and the arm's scoop was manufactured
by Honeybee Robotics of New York.
Phoenix launched from
Cape Canaveral Air Force Station, Fla., on Aug. 4. It will fly to
a site farther north than any previous Mars landing.
The
solar-powered lander will robotically dig to underground ice and
will run laboratory tests assessing whether the site could have
ever been hospitable to microbial life. The instruments will also
look for clues about the history of the water in the ice. They
will monitor arctic weather as northern Mars' summer progresses
toward fall, until solar energy fades and the mission ends.
The
Phoenix mission is led by Peter Smith of The University of
Arizona, Tucson, with project management at NASA's Jet Propulsion
Laboratory, Pasadena, Calif., and development partnership at
Lockheed Martin, Denver. International contributions are provided
by the Canadian Space Agency; the University of Neuchatel,
Switzerland; the Universities of Copenhagen and Aarhus, Denmark;
the Max Planck Institute, Germany; and the Finnish Meteorological
Institute.
Source:
University of Arizona / by Sara Hammond
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