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VK1DSN > SPACE    13.04.08 09:07l 107 Lines 4816 Bytes #999 (0) @ VKNET
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Subj: Course for Mars Landing
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From: VK1DSN@VK1DSN.ACT.AUS.OC
To  : SPACE@VKNET


April 10, 2008

Dwayne Brown
Headquarters, Washington
202-358-1726
dwayne.c.brown@nasa.gov

Guy Webster
Jet Propulsion Laboratory, Pasadena, Calif.
818-354-6278
guy.webster@jpl.nasa.gov

Sara Hammond
University of Arizona, Tucson
520-626-1974
shammond@lpl.arizona.edu

RELEASE: 08-100

NASA SPACECRAFT FINE TUNES COURSE FOR MARS LANDING

PASADENA, Calif. -- NASA engineers have adjusted the flight path of the Phoenix 
Mars Lander, setting the spacecraft on course for its May 25th landing on the 
Red Planet.

"This is our first trajectory maneuver targeting a specific location in the 
northern polar region of Mars," said Brian Portock, chief of the Phoenix 
navigation team at NASA's Jet Propulsion Laboratory in Pasadena, Calif. The 
mission's two prior trajectory maneuvers, made last August and October, 
adjusted the flight path of Phoenix to intersect with Mars. 

NASA has conditionally approved a landing site in a broad, flat valley 
informally called "Green Valley." A final decision will be made after NASA's 
Mars Reconnaissance Orbiter takes additional images of the area this month. 

The orbiter's High Resolution Imaging Science Experiment camera has taken more 
than three dozen images of the area. Analysis of those images prompted the 
Phoenix team to shift the center of the landing target 8 miles southeastward, 
away from slightly rockier patches to the northwest. Navigators used that new 
center for planning today's maneuver. 

The landing area is an ellipse about 62 miles by 12 miles. Researchers have 
mapped more than five million rocks in and around that ellipse, each big enough 
to end the mission if hit by the spacecraft during landing. Knowing where to 
avoid the rockier areas, the team has selected a scientifically exciting target 
that also offers the best chances for the spacecraft to set itself down safely 
onto the Martian surface. 

"Our landing area has the largest concentration of ice on Mars outside of the 
polar caps. If you want to search for a habitable zone in the arctic permafrost,
 then this is the place to go," said Peter Smith, principal investigator for 
the mission, at the University of Arizona, Tucson.

Phoenix will dig to an ice-rich layer expected to lie within arm's reach of the 
surface. It will analyze the water and soil for evidence about climate cycles 
and investigate whether the environment there has been favorable for microbial 
life. 

"We have never before had so much information about a Mars site prior to 
landing," said Ray Arvidson of Washington University in St. Louis. 
Arvidson is chairman of the Phoenix landing-site working group and has worked 
on Mars landings since the first successful Viking landers in 1976.

"The environmental risks at landing -- rocks and slopes -- represent the most 
significant threat to a successful mission. There's always a chance that we'll 
roll snake eyes, but we have identified an area that is very flat and 
relatively free of large boulders," said JPL's David Spencer, Phoenix deputy 
project manager and co-chair of the landing site working group.

Today's trajectory adjustment began by pivoting Phoenix 145 degrees to orient 
and then fire spacecraft thrusters for about 35 seconds, then pivoting Phoenix 
back to point its main antenna toward Earth. The mission has three more planned 
opportunities for maneuvers before May
25 to further refine the trajectory for a safe landing at the desired location. 

In the final seven minutes of its flight on May 25, Phoenix must perform a 
challenging series of actions to safely decelerate from nearly 13,000 mph. The 
spacecraft will release a parachute and then use pulse thrusters at 
approximately 3,000 feet from the surface to slow to about 5 mph and land on 
three legs. 

"Landing on Mars is extremely challenging. In fact, not since the 1970's have 
we had a successful powered landing on this unforgiving planet. There's no 
guarantee of success, but we are doing everything we can to mitigate the risks,"
 said Doug McCuistion, director of NASA's Mars Exploration Program at NASA 
Headquarters in Washington.

For more information about Phoenix, visit: 
http://www.nasa.gov/phoenix
	
-end-

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