No More A-Roving

NASA’s Spirit rover goes into survival mode on Mars.


Four-wheeling doesn’t cut it on Mars. After several months of spinning its four remaining operable wheels in deep, soft sand with no luck, NASA’s Spirit Mars rover is now officially, permanently stuck.

The rover “has encountered a golfer’s worst nightmare,” said Doug McCuistion, director of the Mars Exploration Program in Washington, D.C., “the sand trap that, no matter how many strokes you take, you can’t get out of it. Its driving days are likely over, for all intents and purposes.”

Engineers and scientists at NASA’s Jet Propulsion Laboratory, many of them profiled in our February/March cover story, would probably keep trying to free Spirit were it not for the steady creep of the Martian winter. From Spirit’s perspective, at a latitude 16 degrees below the Martian equator, the days will continue to get shorter until the winter solstice in mid-May. Worse, the rover’s solar panels happen to be tilted about nine degrees toward the southern horizon (away from the sun), further reducing the solar energy that recharges its batteries.

Even if JPL’s rover team did extract Spirit from its sand trap, serious questions linger about what kind of mobility the rover would have as it tried to drag its lame right front and right rear wheels across the sandy landscape.

So the rover team has gone to Plan B: Try to tilt Spirit more toward the sunny northern sky, and hope that when it goes into hibernation mode, it will have enough onboard power to make it through the six-month winter.

If it does survive, there’s still plenty of exciting science that Spirit could do as a stationary platform, principal investigator Steve Squyres says optimistically. “The one I’m most excited about is tracking the radio signal from Spirit,” he says.  Tracking the signal will give precise data on the planet’s wobble as it orbits the sun, which in turn gives clues about its internal structure. “If Mars has a solid core of iron, it’ll wobble in a certain, well-defined way,” says Squyres. “But if that core is liquid, it’ll wobble in an ever so slightly different way. And by tracking the rover’s position long enough, carefully enough, we can distinguish between the two.”

Squyres and the science team would need about six months to determine if the core of Mars is liquid or solid. “Totally new science, never been done before,” he says. “This is something that I didn’t really think much about when we first put a rover on the surface of Mars, because we were thinking about the geology of the surface. But when you delve deeply into what this vehicle is capable of, you find new tricks.”

Other projects suited to a stationary robot involve studying how the atmosphere interacts with the surface over time. And Squyres can do a more comprehensive study of the unusually sulfate-rich soils around the rover, which are thought to have formed long ago, when steam vents were actively changing the surface chemistry. “We expect to be able to use the wheels on the rover come springtime to slightly reposition the rover, to swing it back and forth a little bit, to move it forward and backward, bringing new patches of soil within reach of the arm,” he says.

“The most immediate issue for Spirit right now,” says rover mission project manager John Callas, “is surviving the next Martian winter. We’re clearly seeing a decrease in energy levels for the rover.”

Spirit is generating just enough power for about three more weeks of rocking and jostling in the fine Martian fluff. In past winters—three in total—the team has always been able to position Spirit with its solar arrays tilted northward to maximize energy production as the bitter Martian winter sets in. Spirit’s twin, Opportunity, on the other side of the planet, lives almost on the equator, and receives enough light year-round that it doesn’t have to hibernate. Opportunity has traveled more than 12 miles, or about three times the distance Spirit has, since the two arrived in early 2004.

Comment on this Story

comments powered by Disqus