NASA taps JHU/APL team for first Pluto/Kuiper Belt mission

December 01, 2001

Southwest Research Institute and APL to lead 'new horizons' study of distant planets

NASA has selected a team led by The Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, MD, and Southwest Research Institute (SwRI) in San Antonio, TX, to develop the first mission to explore Pluto and the Kuiper Belt region beyond the distant planet.

Headed by Principal Investigator Dr. S. Alan Stern of SwRI, the New Horizons: Shedding Light on Frontier Worlds mission team also includes Ball Aerospace, Boulder, CO; Stanford University, Palo Alto, CA; NASA Goddard Space Flight Center, Greenbelt, MD; and a variety of other universities and research institutions. Thomas Coughlin is the project manager at APL, which will manage the mission for NASA and design, build and operate the New Horizons spacecraft. SwRI will lead the science team and guide development of the spacecraft's scientific instruments. Ball Aerospace and NASA Goddard will help develop the payload.

Aiming for a 2006 launch and arrival at Pluto before 2020, NASA officials say the mission must pass a confirmation review that will address significant risks such as schedule and technical milestones and regulatory approval for launch of the mission's nuclear power source. Funding must also be available; Congress provided $30 million in fiscal 2002 for the mission to procure a launch vehicle and start developing the spacecraft and science instruments, but no funding for subsequent years is included in the administration's budget plan.

Pluto is the most remote planet in the solar system; its elliptical orbit has an average distance of 3.66 billion miles (5.91 billion kilometers) from the sun, nearly 40 times the distance between Earth and the sun. The Kuiper Belt is a source of comets and believed to be the source of much of Earth's water and the simple chemical precursors of life.

"We'll explore frontier worlds near the edge of the planetary system," says Stern, who is also the director of SwRI's Department of Space Studies, Boulder. "This mission is likely to rewrite textbooks regarding the origins of the planets, the nature of the outer solar system, and even the origin of primitive materials that may have played a role in the development of life. We are very excited to be a part of this wonderful NASA mission."

NASA will work with Stern to further define mission costs and to finalize the design of the spacecraft and its accommodation of the instrument sets. New Horizons is planned for launch in January 2006 and, depending on the launch vehicle selected, would reach Pluto and its moon, Charon, in July of 2016 or 2018. On the way, the small, lightweight craft would pass Jupiter, using the giant planet's gravity as a slingshot toward Pluto and exploring the Jovian system.

The spacecraft team plans to use several proven subsystems already designed for other APL planetary missions, saving money while reducing risk and shortening the project's development schedule. New Horizons' remote-sensing instruments will characterize the global geology and geomorphology of Pluto and Charon, map their surface compositions and temperatures, and examine Pluto's atmosphere in detail. Encounters with Kuiper Belt Objects will occur after the Pluto-Charon flyby.

"The Kuiper Belt is an archeological dig into the early history of our solar system," says Dr. Andrew Cheng, New Horizons project scientist at APL. "It's full of small, icy, dirty and rocky objects that started to build into planets but, for some mysterious reason, stopped in mid-stride. It's a fascinating region."

Following the successful management model of NASA's Discovery Program, New Horizons is a principal investigator-led team representing academia, industry, NASA centers and other communities. In addition to Stern, Coughlin and Cheng, the management team includes Mission Director Dr. Robert Farquhar of APL and Science Payload Manager William Gibson of SwRI. NASA's Jet Propulsion Laboratory, Pasadena, CA, will provide navigation support, and tracking and communication services through NASA's Deep Space Network.

"Leading the first mission to Pluto is an exciting opportunity for the Applied Physics Laboratory," says APL Director Dr. Richard Roca. "We promise a rewarding mission for NASA and for avid space science supporters, such as Sen. Barbara Mikulski and the Maryland delegation, who have done so much to advance science and technology in the state."

New Horizons is the latest of several NASA projects on APL's roster. The Lab manages the Comet Nucleus Tour (CONTOUR), which launches in July 2002 to study at least two diverse comets, and MErcury Surface, Space ENvironment, GEochemistry and Ranging (MESSENGER), set to become the first spacecraft to orbit Mercury after launching in March 2004. APL also managed the Near Earth Asteroid Rendezvous (NEAR) mission -- which included the first spacecraft to orbit and land on an asteroid -- and recently secured a 12-year, $600 million contract for missions in NASA's Sun-Earth Connection program.
-end-
For more information on the Pluto study, visit the New Horizons Web site at http://pluto.jhuapl.edu. The Applied Physics Laboratory, a division of The Johns Hopkins University, meets critical national challenges through the innovative application of science and technology. For information, visit http://www.jhuapl.edu.

The Johns Hopkins University Applied Physics Laboratory Office of Communications and Public Affairs Media Contacts:
Michael Buckley (Applied Physics Lab)
(240) 228-7536
michael.buckley@jhuapl.edu
Helen Worth (Applied Physics Lab)
(240) 228-5113
helen.worth@jhuapl.edu

Johns Hopkins University

Related Solar System Articles from Brightsurf:

Ultraviolet shines light on origins of the solar system
In the search to discover the origins of our solar system, an international team of researchers, including planetary scientist and cosmochemist James Lyons of Arizona State University, has compared the composition of the sun to the composition of the most ancient materials that formed in our solar system: refractory inclusions in unmetamorphosed meteorites.

Second alignment plane of solar system discovered
A study of comet motions indicates that the Solar System has a second alignment plane.

Pressure runs high at edge of solar system
Out at the boundary of our solar system, pressure runs high.

What a dying star's ashes tell us about the birth of our solar system
A UA-led team of researchers discovered a dust grain forged in a stellar explosion before our solar system was born.

What scientists found after sifting through dust in the solar system
Two recent studies report discoveries of dust rings in the inner solar system: a dust ring at Mercury's orbit, and a group of never-before-detected asteroids co-orbiting with Venus, supplying the dust in Venus' orbit.

Discovered: The most-distant solar system object ever observed
A team of astronomers has discovered the most-distant body ever observed in our solar system.

Discovery of the first body in the Solar System with an extrasolar origin
Asteroid 2015 BZ509 is the very first object in the Solar System shown to have an extrasolar origin.

First interstellar immigrant discovered in the solar system
A new study has discovered the first known permanent immigrant to our solar system.

A star disturbed the comets of the solar system in prehistory
About 70,000 years ago, when the human species was already on Earth, a small reddish star approached our solar system and gravitationally disturbed comets and asteroids.

Scientists detect comets outside our solar system
Scientists from MIT and other institutions, working closely with amateur astronomers, have spotted the dusty tails of six exocomets -- comets outside our solar system -- orbiting a faint star 800 light years from Earth.

Read More: Solar System News and Solar System Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.