* Astronomy

A piano-sized probe destined to be the first to study Pluto is being shaken, baked and frozen at two Maryland labs in preparation for a 10 year trip to the edge of the solar system.

The New Horizons probe was shipped last month from the Johns Hopkins University Applied Physics Laboratory in Laurel, where it was designed and built, to NASA's Goddard Space Flight Centre in Greenbelt for the second round of testing.
At the Hopkins lab, the probe was tested on a ``shake table'' that simulates the vibrations it will experience during launch atop an Atlas V rocket, one of NASA's largest launch vehicles.

At Goddard, it will be spun to check the probe's balance and alignment; placed in front of wall-sized speakers that simulate the noise of launch; and then put in a four story thermal vacuum chamber that will expose it to the extreme temperature swings and airless conditions of space.

If the 1,000-pound probe passes all the tests, it will be shipped this fall to the Kennedy Space Centre in Florida for launch in January or early February. Any delay would add about three years to the trip to Pluto because Jupiter would not be in the right position to give it a gravity boost along the way, said project scientist Hal Weaver of the Applied Physics Laboratory.

As launch rockets have become more powerful, pushing their payloads into space at much higher speeds, such testing has become even more important, Weaver said. New Horizons, for example, will pass the moon in nine hours, compared to three days for the Apollo astronauts in the 1970s, and is expected to reach Jupiter in 13 months instead of the six years needed for the Galileo probe in the early 1990s, Weaver said.

New Horizons must also be able to withstand the harsh conditions of deep space. To simulate those conditions, the vacuum chamber has ''thermal shrouds'' through which liquid nitrogen flows at more than 300 degrees below zero, creating ''as much as we can, as well as we can, what the environment is when it's actually on the way to Pluto, and see if it still works,'' Weaver said.

Pluto is the farthest planet in the solar system and the last to be visited by a spacecraft. Little is known about the frigid planet and its large moon, Charon. The moon is about half the size of Pluto, and the two are actually a binary planet, or a pair of planets, whose centre of gravity is between the two.
Although binary planets and binary star systems are thought to be common in the universe, New Horizons will be the first spacecraft to explore a binary planet.
The probe also will study the Kuiper Belt, a ring of icy objects at the edge of the solar system.
The belt is thought to be the source of most short-period comets, those with orbits less than 200 years, and scientists are looking to compare the composition and surface properties of Pluto and Charon to those of comets.
New Horizons should reach the Kuiper Belt about three years after passing Pluto, and the probe is expected to run out of power between 2023 and 2025, Weaver said.
The principal investigator for the $650 million mission, Alan Stern of the South-western Research Institute in Boulder, Colorado, said making sure all goes well is also important because Pluto is on the outbound portion of its 250-year orbit. That means the atmosphere around the planet could ''snow-out,'' or freeze to a solid and fall to the surface, ''and there won't be an atmosphere for us to study if we wait too long.''

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The first spacecraft designed to study Pluto, the solar system’s farthest planet, took the first steps on a long journey today when it was shipped from the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, US. — where it was designed and built — to NASA’s Goddard Space Flight Centre in Greenbelt, US, for its next round of pre-launch tests.

The New Horizons spacecraft spent the past week in an APL vibration test lab, where engineers checked the structural integrity of the piano-sized probe aboard a large shake table.
The table simulated the energetic ride New Horizons would encounter during lift-off aboard an Atlas V – one of the largest launch vehicles NASA uses.

“Our testing program is off to a good start…We’ve shown that New Horizons is structurally ready for the ride on the launch vehicle, and now we’ll test it in the full range of conditions it would face on the voyage to Pluto, Pluto's moon, Charon, and beyond.” - Glen Fountain, New Horizons project manager at APL.


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Update May 24, 2005

'Motivated' Team Eyes Mission's Next Stage
Pluto might be about 3 billion miles from Earth, but it seems a little closer for the team leading NASA's proposed first mission to the "last planet."

With spacecraft assembly and several successful mission simulations and system performance tests behind them, New Horizons team members are gearing up for the mission's next stage: pre-launch space environment testing. In early June, the spacecraft is scheduled to move from the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Md. - where it was designed and built - to NASA's Goddard Space Flight Center in Greenbelt, Md. At Goddard, New Horizons will get a full dose of the rough, cold and airless conditions it would encounter during launch and the planned voyage to Pluto and its moon, Charon.

"Everyone has worked very hard to get to this point," says Glen Fountain, the New Horizons project manager at APL. "System-level tests have gone well and we're in good shape. The team is motivated - we've come a long way over the past year and we are ready to get into the environmental test program."

NASA proposes to launch New Horizons in January 2006, aboard an Atlas V rocket from Cape Canaveral Air Force Station, Fla. After launch, New Horizons would swing through the Jupiter system in February or March 2007, getting a gravity push toward Pluto-Charon and a chance to exercise its science instruments on the large planet. It could reach Pluto-Charon - and begin a detailed, six-month flyby reconnaissance study - as early as 2015.

APL manages New Horizons for NASA's Science Mission Directorate; Alan Stern of the Southwest Research Institute's Department of Space Studies leads the mission as principal investigator. The mission team includes major partners in Ball Aerospace, Boeing, the Department of Energy, KinetX, Inc., Lockheed Martin, Goddard Space Flight Center, the Jet Propulsion Laboratory, NASA Kennedy Space Center, the University of Colorado and Stanford University.

Launch Approval Update

New Horizons' travels would take it to a new class of worlds at the edge of our solar system - and to a region too far from the Sun for solar panels to work. Spacecraft designs call for a single radioisotope thermoelectric generator (RTG) to power new Horizons' systems and science instruments.

NASA's environmental and launch risk analyses for launching New Horizons with an RTG continues. The public comment period on the Draft Environmental Impact Statement ended April 11; NASA is now working on a Final Environmental Impact Statement, projected for release this summer. The agency expects to issue its National Environmental Policy Act (NEPA) record of decision for New Horizons this fall. If NASA decides to proceed with launch preparation, it will then request final approval to launch from the White House Office of Science and Technology Policy.

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