Spacecraft Spends Its First Full Day On Mars
We can certainly understand that NASA is currently in the throes
of Mars fever, as agency workers and scientists at JPL and the
University of Arizona continue to bask in the successful landing of
the Mars Phoenix Lander Sunday evening.
As it turns out, photographic evidence of the spot-on launch was
captured by a telescopic camera in orbit around Mars, which caught
a view of the Phoenix lander suspended from its parachute during
the it's successful arrival.
The image from the High Resolution Imaging Science Experiment
(HiRISE, image shown above) on NASA's Mars Reconnaissance Orbiter
marks the first time ever one spacecraft has photographed another
one in the act of landing on Mars.
Meanwhile, scientists pored over initial images from Phoenix,
the first ever taken from the surface of Mars' polar regions.
Phoenix returned information that it was in good health after its
first night on Mars, and the Phoenix team sent the spacecraft its
to-do list for the day.
"We can see cracks in the troughs that make us think the ice is
still modifying the surface," said Phoenix Principal Investigator
Peter Smith of the University of Arizona, Tucson. "We see fresh
cracks. Cracks can't be old. They would fill in."
Camera pointing for the image from HiRISE used navigational
information about Phoenix updated on landing day. The camera team
and Phoenix team would not know until the image was sent to Earth
whether it had actually caught Phoenix.
"We saw a few other bright spots in the image first, but when we
saw the parachute and the lander with the cords connecting them,
there was no question," said HiRISE Principal Investigator Alfred
McEwen, also of the University of Arizona.
"I'm floored. I'm absolutely floored," said Phoenix Project
Manager Barry Goldstein of NASA's Jet Propulsion Laboratory,
Pasadena, CA. A team analyzing what can be learned from the Phoenix
descent through the Martian atmosphere will use the image to
reconstruct events.
HiRISE usually points downward. For this image, the pointing was
at 62 degrees, nearly two-thirds of the way from straight down to
horizontal. To tilt the camera, the whole orbiter must tilt. Mars
Reconnaissance Orbiter was already pointed toward the expected
descent path of Phoenix to record radio transmissions from
Phoenix.
"We've never taken an image at such an oblique angle before,"
said McEwen.