Destination Mars (22 page)

Opportunity was near the equator, while the ever-unlucky Spirit was in the southern hemisphere, so while Spirit shivered through the winter, Opportunity was still receiving power from the sun. She was ready to tackle her biggest challenge yet.

In October, Opportunity began driving the rim of the vast crater. About this time, the Mars Reconnaissance Orbiter began work overhead, and was able not only to spot tiny Opportunity
going about its chores, but also to begin to assist in planning its future by looking inside the crater itself. The ultra-hi-res images MRO sent home gave MER planners much-needed data and allowed them to plan with far greater confidence.

From its vantage point, perched on the rim of the crater, Opportunity had provided researchers with sufficiently detailed images to show that the layers of rock in the crater wall were diverse and promising. There were specific divisions, indicative of environmental change. This is just the sort of thing they had come for and, if the rover stayed cooperative, would investigate.

Besides investigating the crater from a safe vantage point on the rim, Opportunity was seeking a safe entrance for a possible drive down to the interior. This was no small feat. Victoria was not an exact circle like many craters; its sides were heavily scalloped. While this offered a variation in incline for the drive inside, it also made navigating the rim trickier. The machine needed the best possible combination of slope and material composition to risk entering the crater. Too much sand and it could slip. Too many rocks and it could be blocked. Nobody wanted a replay of the “rover-stuck-in-a-dune” drama of a few months back. Caution was the watchword.

After a few months of carefully picking its way around the rim of the crater, Opportunity joined its sister rover, Spirit, in a bit of downtime for a software update. This improved version would allow the rovers to better “think” and take more independent action. One example was the ability to perceive changes in visual and cloud patterns, so that rather than slavishly sending back hours of images of the horizon through which researchers would have to sift to find a change indicating, say, a dust devil, the rover would be able to “sense” the differences and send back to Earth the relevant images, dismissing the rest.

Another new capability was called
visual target tracking.
Previously, when the rover was driving in autonomous mode, it could not track the location of a boulder or other impediment as it
moved. Once the visual aspect of the item in question changed, it became a new item in the rover's mind. This software update allowed the onboard computer to track the offending item as the rover moved—vital for ongoing mission success.

Finally, a new routine had been programmed to allow the rovers more autonomy in the use of their robotic arms. Previously, when the rover neared a target for investigation, ground controllers had to assess safe approaches and give specific instructions to the arm. This new software allowed the onboard computer to determine the risks itself and preselect targets, and approaches, for a closer look.

While these may seem mundane changes to some, the ability to cut down on the twenty-minute delay in communications (each way—so double that and add time to go through an orbiting relay such as MRO) allowed ground controllers and the rovers to accomplish much, much more in a shorter time. And with the clock ticking on each of the rover's mechanical and electronic systems, time was critical.

It was now June 2007. Opportunity had spent a few months driving around a prominence of Victoria called Duck Bay. The rover had investigated what it could around the rim, while at the same time seeking a safe route for descent. By the end of June, it returned to the most promising site. The slope here varied from fifteen to twenty degrees and was mostly exposed bedrock, which, it was hoped, would minimize the dangers associated with slipping on sand or dirt.

At this point, Victoria had been monopolizing Opportunity's attentions for almost two and a half years. Things move slowly in Mars rover-time. It was time to make the leap of faith and head toward the crater floor. If tension could be eaten, flight controllers would have their lunch set out for months to come.

Then, bad weather intervened. Massive dust storms kicked up, raging for over two months. To the rovers, the threat was not just of a loss of solar power to their batteries, but also of reduced
visibility and windblown grit. But they hunkered down and sat out the storms. It was a long wait. Some days the solar panels could only generate power equivalent to that needed to light a 100-watt bulb for an hour. They could not operate normally in this condition and went into reduced power mode, restricting activities to a minimum. Even so, there was real concern. At one point, only 1 percent of the normal light reaching the rovers in daytime was available, and the batteries were dying. The skies overhead were almost opaque. And if power was too low, the rovers would “safe” themselves by going into a condition called “Low Power Fault.” This would put the machine to sleep, from which it would rouse itself briefly each day to check out prevailing conditions and available power. The problem was that nobody was entirely confident that the machine would wake up at all if it slept too long. It was a real nail-biter of a time.

But fate smiled upon the mission, and by September the skies had cleared and it was time to commit. The depleted batteries had recharged and were fit for duty. On the eleventh, Opportunity made its first tentative drive into Victoria. Again, it crossed the threshold, moving about thirteen feet downslope. Then it reversed direction to ascertain how much it might slip on the way out and to make sure that it could retreat to safety if it had to. Two days later, the die was cast, and Opportunity headed toward the crater's interior, its home for the upcoming year.

Within Victoria was a bright band of sedimentary material that girdled the crater, which was inevitably dubbed the “bathtub ring.” This turned out to be a water table from a time not long before the impact that created Victoria some millions of years ago. Then, as the rover descended, it began to spot more “blueberries,” the hematite spherules seen across Meridiani Planum. But these were far larger than those investigated earlier, again suggesting that the farther back one looked, the wetter Mars got. It also argued for much of this watery interaction to have occurred underground, rather than on the surface. The mysteries just kept unraveling.

Interestingly, on the way to Victoria, the number and size of the “blueberries” sighted had been decreasing steadily. At the same time, the rover had been gaining elevation, with Victoria sitting about one hundred feet higher than Endurance. But once the rover dove into Victoria Crater and lost elevation, the “blueberries” got larger. Again, water processes were suspected.

As Opportunity drove around the interior of Victoria Crater, it explored many of the bedrock outcrops visually. Most were named after capes and bays from the age of exploration on Earth. As the rover was able to gain more sampling results, what had been observed previously at Endurance and Eagle Craters was confirmed and recognized as regional processes, that is, they took place across Meridiani Planum and not just where they were first seen.

While exploring Victoria, Opportunity began experiencing trouble with its robotic arm again. This was a replay of the problems experienced in 2005. The balky motor was taking more current to work than it should, so engineers had to increase the amount of electricity being used, but not to the point where it could cause a larger problem. It was decided now to change the way they treated the arm while the rover was driving. Previously, the mission rule was to stow the arm under a restraining hook while a rover was moving. But the motor giving trouble was needed to unstow. So rather than end up with a trapped arm, the programmers instructed Opportunity to unstow the arm after each day's work rather than spending the night with the arm under the hook. A small change, but a potentially limb-saving one.

Opportunity's adventures within Victoria Crater continued. The final results would take time to compile, but it was clear that water was in the mix in a profound way. It had come and gone over billions of years. And always there was the wind; in fact, it appeared that most of the scalloping was done by the wind. Opportunity had been able to look at vertical strata of rock over thirty feet high; some was clearly the result of sand dunes compacting into strata layers. Also found outside the crater bowl were
bits of meteorite that may have been parts of the body that created the impact crater so long ago.

Other processes and results were noted—most important, the continuing evidence of not just water in the past, but indications of how the water existed as it was affecting the rocks. In this area, the water seemed to have been operating underground more than above, which could allow it to continue to change the rocks long after Mars lost the ability to support water in liquid form on its surface.

While these results were being digested by the investigative teams on Earth, Opportunity made the sometimes-treacherous climb out of Victoria. A year after entering the crater, the rover used the very same tread marks it had left when it entered to chart a safe path out of the depression. At the end of August 2009, the rover completed the one-month drive out of the crater, crossed the sandy barrier at the rim, and was once again on flat ground.

After a brief period of checkouts, it began what would be a multiyear, ten-mile drive to its next objective: the massive Endeavor Crater named after Captain Cook's famous vessel. The journey was expected to take over two years. The adventure in Victoria had consumed almost half of Opportunity's time on Mars. Before departing the area, it investigated more rocks around the edge, targets it had noted but passed by in the drive to get inside Victoria. A further bounty of science resulted, largely confirming what the scientists already knew: Mars was once a wet, wet world.

Endeavor, its next target, was over twenty times larger than Victoria, almost fourteen miles across, and promised an even greater scientific bonanza. As this book goes to press, Opportunity will begin its descent into this larger impact crater to begin a new round of investigations and discoveries for as long as it can manage to do so.

Across the dusty planet, Spirit continued operating, but barely. By late 2008 it had begun showing increased difficulty in operation, and in January of the following year, the onboard computer began to behave erratically. At times it would download driving instructions and not execute them, and at other times it would not fully report the activities of the day. Spirit's health continued to decline; in addition to the front right wheel (which now merely dragged along), its flash memory was becoming faulty. Even so, as recently as January 6, it had stopped to research a rock called Stapledon, which contained high amounts of silica, possibly indicating a former watery hot spring or steam vent.

By April, Spirit's onboard computer was again being testy and
began to reboot spontaneously. The flash-memory problems were increasing, resulting in increased amnesia. Then, in June 2009, it became lodged in soft sand; attempts by controllers to unstick the machine were meeting with little success. It had been driving across a crusty surface but broke through into the softer sand below. With winter coming, if the machine could not be moved to another spot that would afford the increasingly dusty solar panels a better angle toward the weakening sun, its future did not look bright.

To make matters more frustrating, it had become clear that the
region Spirit had been investigating was not so dull after all. While Opportunity had discovered a formerly very wet and acidic environment in Meridiani Planum, Spirit's home had been found to be a steamy, violent place. More investigation was clearly warranted, but only if the robot could be moved from its current location.

In late March 2010, Spirit stopped talking. The suspicion was that it had entered a hibernation mode, a result of increasingly low energy reserves in its batteries. Already the daily communications with the rover had been cut to once a week in an effort to conserve power. But even that had proved to be too much. As the Mars Odyssey probe wheeled overhead, it listened intently for a signal, but none came.