Project cleared to build Mercury orbiter probe
JOHNS HOPKINS UNIVERSITY APPLIED PHYSICS LABORATORY NEWS RELEASE
Posted: March 30, 2002

The first mission to orbit the planet Mercury took a big step toward its scheduled March 2004 launch when NASA's MESSENGER project received approval to start building its spacecraft and scientific instruments.

MESSENGER - which stands for MErcury Surface, Space ENvironment, GEochemistry, and Ranging - passed a thorough four-day critical design review last week, during which a project advisory panel and NASA assessment team examined every detail of the mission and spacecraft design.

"The review was very successful," says Max R. Peterson, MESSENGER project manager at the Johns Hopkins University Applied Physics Laboratory (APL), Laurel, Md. "Both panels confirmed that our designs are sound and meet the mission's science and engineering requirements. We're ready to move to the next stage."

MESSENGER
Artist's concept of the MESSENGER spacecraft, which will conduct the first orbit study of the planet Mercury. A ceramic-material sunshield protects the spacecraft and its scientific instruments from the intense heat and solar radiation near the planet. Photo: JHU-APL
 
MESSENGER team members are building flight hardware now and will begin integrating parts on the spacecraft this November, Peterson says. After launch and a five-year journey through the inner solar system, MESSENGER will orbit Mercury for one Earth year, providing the first images of the entire planet and collecting information on the composition and structure of Mercury's crust, its geologic history, the nature of its thin atmosphere and active magnetosphere, and the makeup of its core and polar materials. While cruising to Mercury the spacecraft will fly past the planet twice - in 2007 and 2008 - snapping pictures and gathering data critical to planning the orbit study that begins in April 2009.

A key MESSENGER design element deals with the intense heat at Mercury. The sun is up to 11 times brighter than we see on Earth and surface temperatures can reach 450 degrees Celsius (about 840 degrees Fahrenheit), but MESSENGER's instruments will operate at room temperature behind a sunshield made of heat-resistant Nextel fabric. The spacecraft will also pass only briefly over the hottest parts of the surface, limiting exposure to reflected heat.

"The project is well on its way," says Dr. Sean C. Solomon, MESSENGER principal investigator from the Carnegie Institution of Washington (D.C). "Exploring the many mysteries of Mercury will help us to understand all of the terrestrial planets, including Earth. The team is eagerly looking forward to assembling and launching the spacecraft and to the first new data from the innermost planet."

In July 1999, NASA selected MESSENGER as the seventh mission in its innovative Discovery Program of lower-cost, highly focused space science investigations. APL manages the $286 million project for NASA's Office of Space Science and will build and operate the MESSENGER spacecraft.

The Applied Physics Laboratory, a division of The Johns Hopkins University, meets critical national challenges through the innovative application of science and technology.