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IBEX Spacecraft Heads West, Takes Major Step Toward Launch

Written by thomas · Filed Under Aeronautics News 

July 25, 2008

thomas

GREENBELT, Md., July 25 /PRNewswire-USNewswire/ — NASA’s Interstellar
Boundary Explorer (IBEX) spacecraft, designed to image global interactions
at the outer reaches of the solar system, today began its move to
Vandenberg Air Force Base (VAFB), Calif.

The IBEX spacecraft was loaded into a truck at Orbital Sciences
Corporation, Va., where engineers integrated the science payload with the
spacecraft and completed numerous tests to ensure optimum performance
during the launch and operational phases of the mission.

“This is a huge milestone for the IBEX mission. It’s great to have our
spacecraft making its road trip west,” said Dr. David McComas, IBEX
principal investigator and senior executive director of the Space Science
and Engineering Division at Southwest Research Institute. “At Vandenberg,
IBEX will undergo some final testing, fueling, and spin balancing prior to
being mated to a Pegasus launch vehicle.”

IBEX will move once more before its scheduled October 5 launch. In late
September, the spacecraft will be transported to a facility on Kwajalein
Island, a part of the Marshall Islands, roughly equidistant between Hawaii,
Japan and Australia. There it will undergo final preparations for its
unique launch. An L-1011 aircraft is set to carry IBEX and the Pegasus
rocket out over the South Pacific, fly toward the east, and drop it.
Shortly after drop, the rocket will ignite and carry IBEX up to about 130
miles above Earth, spin it up to 60 RPM, and release it.

“This move to VAFB begins the final sequence of ground processing for
the IBEX mission,” said Greg Frazier, IBEX Mission Manager. “We are all
looking forward to completing the ground processing, integrating with the
Pegasus launch vehicle and having a successful launch.”

Using a concept never before attempted, the IBEX team integrated its
own additional solid rocket motor and internal propulsion system to
transport the spacecraft all the way up to its final high-altitude orbit
(about 200,000 miles high) — most of the way to the Moon. This
groundbreaking, relatively inexpensive launch method holds great promise
for delivering future small government and commercial spacecraft to
high-altitude orbits.

During its science investigation, IBEX will use a pair of energetic
neutral atom “cameras” to image interactions between the million
mile-per-hour solar wind continually blown out by the Sun and the
low-density material between the stars, known as the interstellar medium —
interactions never before imaged. The spacecraft begins imaging the edge of
the solar system within a couple of weeks after it reaches final orbit.
Every six months, the spacecraft will complete an all-sky map of the
interstellar boundaries, expected to reveal much about our home in the
galaxy.

“The IBEX mission will provide a much deeper understanding of the Sun’s
interaction with the galaxy and will also address a serious challenge
facing manned exploration by studying the region that shields us from the
majority of galactic cosmic ray radiation,” said McComas.

IBEX is the next in NASA’s series of low-cost, rapidly developed Small
Explorers spacecraft. The IBEX mission was developed by Southwest Research
Institute with a national and international team of partners. NASA’s
Goddard Space Flight Center manages the Explorers Program for the Science
Mission Directorate.

For more information about the IBEX mission, visit:
http://www.nasa.gov/ibex or http://ibex.swri.org

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