NASA / JPL-Caltech / MSSS
The location of a rock target called "Knorr" is indicated in this self-portrait of the Curiosity rover in the Yellowknife Bay area. The self-portrait is a mosaic of images taken by Curiosity's Mars Hand Lens Imager on Feb. 3.
By Clara Moskowitz
A new glitch on NASA's Mars rover Curiosity has forced the vehicle to stay in safe mode longer than planned, stalling science operations for another couple of days, scientists said Monday.
The Curiosity rover had paused in its scientific investigation of the Red Planet in late February, when corrupted memory files forced engineers to switch the rover's main operations from its "A-side" computer to its "B-side" backup.
Just as the computer switch was being sorted out, though, mission managers decided to put the rover back in standby mode on March 5 to protect it from possible radiation that could be released by a major solar flare pointed toward Mars. Curiosity had come out of safe mode following that scare, but normal science operations had not yet resumed.
Now, a computer file error has forced the rover into safe mode again. "This is not something which is rare or extraordinary," Curiosity chief scientist John Grotzinger said Monday at the Lunar and Planetary Science Conference in The Woodlands, Texas. "It does mean that science has to stand down for a couple more days."
The latest issue has to do with some of the rover's files that were scheduled for deletion. One of those files was connected to a file still in use by the spacecraft, so the deletion process prompted an error that sent the rover into safe mode again, preventing the rover from resuming science as planned. [Curiosity Rover's Latest Amazing Mars Photos]
"If not for the latest safing, we would have been back in action today," Grotzinger said. "The expectation is, it's going to take a couple of sols [Martian days] to resolve this one."
Despite these technical setbacks, though, Curiosity's scientists have been forging ahead with analysis of the wealth of data collected by the rover so far. Those measurements allowed the researchers to declare last week the mission had found proof that a spot on ancient Mars would have provided habitable conditions to microbes, had they been present during the planet's past.
New research discussed Monday at the Lunar and Planetary Science Conference elaborates on that finding, suggesting that those habitable conditions extended beyond the particular site named last week, which lies in an area called Yellowknife Bay.
While the first evidence of past habitability came from Curiosity's drill, which bored into rocks in Yellowknife Bay, the new findings of more widespread habitable conditions come from the rover's Mast Camera (MastCam), which has near-infrared filters that can detect iron-bearing rocks and hydrated (water-containing) minerals.
"With MastCam, we see elevated hydration signals in the narrow veins that cut many of the rocks in this area," Melissa Rice of the California Institute of Technology in Pasadena, Calif., said in a statement. "These bright veins contain hydrated minerals that are different from the clay minerals in the surrounding rock matrix."
NASA / JPL-Caltech / MSSS / ASU
On this image of the rock target "Knorr," color coding maps the amount of mineral hydration indicated by a ratio of near-infrared reflectance intensities measured by Curiosity's MastCam. The color scale on the right shows the assignment of colors for relative strength of the calculated signal for hydration. The map shows that the stronger signals for hydration are associated with pale veins and light-toned nodules in the rock. This image and the data for assessing hydration come from a MastCam observation of Knorr on Dec. 20, 2012.
The scientists were able to track variations in the amount of hydrated minerals in different locations, as well as between different layers of the Martian surface.
"A very significant message from the instrument data is that we are sensitive not only to the global variations, but also to the local variations," said Maxim Litvak of the Space Research Institute in Moscow, who is deputy principal investigator of Curiosity's Dynamic Albedo of Neutrons instrument, which measures hydrogen on the Marian surface.
The $2.5 billion Curiosity rover, the centerpiece of NASA's Mars Science Laboratory mission, landed on Mars in August 2012 after launching the previous November. The rover has already accomplished its main goal, which was to determine whether the Red Planet was ever habitable to microbial life. Though the answer to that query has now been settled, the larger question of whether such life ever existed on Mars remains open.
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