National Aeronautics and Space Administration Logo
Follow this link to skip to the main content NASA Banner
Solar System Exploration
News & Events
APL Providing Mineralogic Mapper for NASA's 2005 Orbiter Mission
APL Providing Mineralogic Mapper for NASA's 2005 Orbiter Mission
9 Nov 2001
(Source: Johns Hopkins University Applied Physics Laboratory)

The John Hopkins University
Applied Physics Laboratory

Media Contacts:

Michael Buckley
Applied Physics Laboratory
Phone: 240-228-7536

Helen Worth Applied Physics Laboratory Phone: 240-228-5113 E-mail:

Applied Physics Lab Joins Search for Water on Mars

NASA announced today that The Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Md., will provide a key science instrument on the Mars Reconnaissance Orbiter, the spacecraft NASA plans to send to the Red Planet in 2005.

Over the next two years an APL team will design and build the $17.6 million Compact Reconnaissance Imaging Spectrometer for Mars, or CRISM, which will search for mineral residues of past or recent water on the Martian surface. As the orbiter flies over a given area, CRISM's scanning mechanism allows the instrument's visible and infrared spectrometers to track a targeted region on the surface and map it from different angles as the orbiter passes overhead. CRISM uses the spectrum of reflected sunlight to determine the mineralogy of surface materials at scales as small as 82 feet (25 meters).

"By looking at the different spectra of reflected sunlight, the instrument will pick up the 'fingerprints' of different minerals," says CRISM Principal Investigator Dr. Scott Murchie of the Applied Physics Laboratory. "Finding certain minerals on the surface tells you that water has been there. The exact combination of minerals tells you about the climatic conditions at the surface when the water flowed as liquid." Between its targeted, high-resolution observations, CRISM will search the planet at a reduced set of wavelengths to find new sites of interest not previously suspected. "Many of the oldest rocks will be battered by craters so that ancient lakes and springs wouldn't be obvious just from pictures. This survey capability will help us find places for future landings that wouldn't otherwise be recognized."

Set to launch in August 2005, the Mars Reconnaissance Orbiter is the latest mission in NASA's long-term Mars exploration program. The craft will analyze the surface at new scales to follow hints of water detected in images from the Mars Global Surveyor spacecraft, and to bridge the gap between surface observations and measurements from orbit. The MRO high-resolution imager, also selected by NASA at the same time as CRISM, will return the sharpest images of the Martian surface ever taken by Mars-circling orbiters - at resolutions high enough to spot rocks the size of beach balls. The mission will identify ideal locations for future landers to touch down on Mars.

Though CRISM is the first APL-developed science tool on a Mars mission, the Laboratory has built 59 spacecraft and provided 136 instruments for a variety of Earth-orbiting and deep space satellites over the past 40 years. APL managed NASA's Near Earth Asteroid Rendezvous (NEAR) mission, which included the first spacecraft to orbit and land on an asteroid. Other APL-managed NASA missions include the Comet Nucleus Tour (CONTOUR), which launches in July 2002 for a comprehensive study of at least two comets, and MErcury Surface, Space ENvironment, GEochemistry and Ranging (MESSENGER), a Mercury orbiter set to launch in 2004.

In fact, CRISM derives much of its design from the high-resolution camera and spectral mapper on the CONTOUR spacecraft, currently under construction at APL. "The requirements for making these kinds of observations on Mars are similar to those for mapping the nucleus of a comet," says Dennis Fort, CRISM systems engineer. "The approach used on CONTOUR for tracking a comet and acquiring high resolution spectra adapts nicely to prospecting for small mineral deposits on the surface of Mars from orbit." Other components of CRISM are adapted from the similarly scannable imaging system on the MESSENGER Mercury orbiter, also currently under development at APL.

APL provided the ultra-stable oscillator - a super-precise timekeeping device - for Mars Global Surveyor, which has been essential to mapping atmospheric structure and circulation patterns on Mars for the past four years.

For more information about APL's space programs, visit For more information about NASA's Mars Exploration Program, visit

News Archive Search  Go!
Show  results per page
Awards and Recognition   Solar System Exploration Roadmap   Contact Us   Site Map   Print This Page
NASA Official: Kristen Erickson
Advisory: Dr. James Green, Director of Planetary Science
Outreach Manager: Alice Wessen
Curator/Editor: Phil Davis
Science Writer: Autumn Burdick
Producer: Greg Baerg
Webmaster: David Martin
> NASA Science Mission Directorate
> Budgets, Strategic Plans and Accountability Reports
> Equal Employment Opportunity Data
   Posted Pursuant to the No Fear Act
> Information-Dissemination Policies and Inventories
> Freedom of Information Act
> Privacy Policy & Important Notices
> Inspector General Hotline
> Office of the Inspector General
> NASA Communications Policy
> NASA Advisory Council
> Open Government at NASA
Last Updated: 12 Nov 2001