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Rich Zurek and the Mystery of the Disappearing Spacecraft
Imagine if the illustrious Sherlock Holmes lived in modern times. He might decide to take on the challenge of solving the mysterious disappearance of the Beagle 2, a British spacecraft that vanished without a trace after entering the atmosphere of Mars on Christmas Day, 2003.

This image looks down at the surface of a spacecraft (the Mars Polar Lander) with two wing-shaped solar panels on either side on a flat martian surface along with two sketches of telescope-shaped cameras, the Mars Orbital Camera and the HiRISE. Accompanying the two camera sketches are images that are not clear enough to distinguish something the size of the Mars Polar Lander. Image to left: Resolution of HiRISE Camera
The HiRISE camera on the Mars Reconnaissance Orbiter will increase by 10 times the number of areas surveyed up close from orbit. Image credit: NASA/JPL
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Malin Space Science Systems of San Diego looked for signs of the lost spacecraft in early 2004. Scrutinizing images from a camera the company built for NASA's Mars Global Surveyor orbiter, Malin researchers detected an unfamiliar black spot on the surface of the planet. Alas, after using special software to improve photographic detail, Malin's optical experts concluded that the spot was an eroded meteor crater with some dark-colored sand on the crater floor.

Based on the evidence, one might surmise that Beagle 2 never made it to Mars. Rich Zurek, however, is something of a modern-day, scientific Sherlock who wants more clues about both Beagle 2 and a lost US spacecraft, Mars Polar Lander.

As project scientist for the Mars Reconnaissance Orbiter, he knows that just because we don't see it, doesn't necessarily mean it's not there.

Scientific Sherlock Seeks Clues

An atmospheric scientist by training, Zurek appears an honest sort of fellow, with friendly blue eyes, slightly bushy eyebrows, a receding hairline, and a scientist's penchant for describing things in great detail. His eyes appear even more penetrating than usual when they match the blue shirt he is wearing.

"On Mars Reconnaissance Orbiter, we're going to have the biggest 'magnifying glass' possible," Zurek explains. "If there are clues, we're going to find them."

This photo shows a blue-eyed Rich Zurek wearing a dressy blue shirt smiling for the camera. Image to right: Rich Zurek
Rich Zurek is the project scientist for the Mars Reconnaissance Orbiter. Image credit: NASA/JPL
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Zurek is firmly resolved to conduct some intensive detective work. "We all know how hard it is to get to Mars," Zurek related. "The worst is not quite knowing what happened. We really felt for our European colleagues, because we've been through it ourselves. We know how painful it is to lose a spacecraft that you've dedicated so many years to build."

In 1999, the U.S. sent Mars Polar Lander, but it too never made it successfully to the surface. In fact, two-thirds of all international missions to the red planet have failed. It isn't trivial getting spacecraft safely to a planet that is hundreds of thousands of miles away, and solving some of the mysteries surrounding those that were lost will help future missions be successful.

Largest Magnifying Glass Possible

Mars Reconnaissance Orbiter will use three cameras to look at geology and search for lost landers. "In effect, it's like having a planetary microscope," explains Zurek. "You start with low magnification and switch to increasingly higher magnification for a closer look."

This photo shows four workers clad in lab coats, caps, face coverings, and gloves holding onto a large, cylindrical object (essentially a large telescope) as tall as a human and twice as wide that is wrapped in a sleek, cellophane-like cover. Image to left: High-Resolution Imaging Science Experiment
Under contract to the University of Arizona, workers at Ball Aerospace and Technology Corp. place protective wrapping over the HiRISE camera prior to vibration testing. Image credit: NASA/JPL/UA/BAC
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As the spacecraft circles the planet 12 times a day, the Mars Color Imager, or MARCI for short, will take large-scale snapshots. A MARCI image might reveal a volcano, a few large craters, several smaller craters, a canyon, and some flat areas.

Next, a Context Camera image will zoom in farther, perhaps showing some meandering channels that weren't clearly visible in the MARCI image.

Finally, the Hi-RISE camera will provide the most detailed view of the surface. Hi-RISE is the most powerful camera on the spacecraft in terms of the smallness of the features that will be visible. From space, it can take pictures of objects on the surface of Mars that are about the size of a small dining room table.

A HiRISE image might reveal a large flat ledge next to one of the canyons. On top of that ledge might be a small dark object.perhaps the missing spacecraft.

"Of course," Zurek cautions, "the three-foot-wide Beagle 2 still may be too small for our cameras to see, unless it left a telltale track in the martian soil."

Looking for a Mineral "Fingerprint"

Undaunted, Zurek continues: "There may be another potential line of investigation."

The Compact Reconnaissance Imaging Spectrometer for Mars, or CRISM for short, will identify minerals on the surface of Mars. If Beagle crashed into the surface and churned up a rather large area of soil in the process, CRISM might find signs of different minerals in the newly exposed subsurface that don't match those of the surrounding terrain.

This picture shows technicians wearing hooded lab coats, face coverings, and gloves adjusting wires attached to printed circuit boards and gold foil on a flat metal plate the size of a standard notebook. Attached to the plate is a sturdy metal frame that holds it upright. Image to right: Compact Reconnaissance Imaging Spectrometer for Mars
Technicians in the Applied Physics Laboratory of Johns Hopkins University make adjustments to the Compact Reconnaissance Spectrometer for Mars prior to testing. Image credit: NASA/JPL/JHU
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"It would be like having a mineral fingerprint pointing to the spot where Beagle 2 landed," Zurek said.

Mars Reconnaissance Orbiter will begin looking for these clues when it arrives at the red planet and settles into its orbit in 2006. Stay tuned!

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