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Chandra X-ray Observatory
An artist’s conception shows the Chandra X-ray Observatory. (NASA / CXC / SAO Illustration)

Even as experts worked on ways to get the Hubble Space Telescope back doing science, another one of NASA’s Great Observatories in space — the Chandra X-ray Observatory — went into safe mode as well.

NASA said the 19-year-old X-ray telescope put itself into hibernation on Oct. 10, possibly due to an issue with its gyroscopic pointing system. A gyro failure was behind the 28-year-old Hubble’s transition to safe mode last week.

Due to the glitch, Chandra swapped critical hardware operations to backup units and pointed its solar panels to soak up the maximum amount of sunlight, while pointing its mirrors away from the sun to minimize the risk of damage.

“All systems functioned as expected and the scientific instruments are safe,” NASA said in a status update issued Friday.

The Chandra telescope is named after Nobel Prize-winning Indian-American astrophysicist Subrahmanyan Chandrasekhar and operated for NASA by the Chandra X-ray Center at the Smithsonian Astrophysical Observatory. Chandra focuses on the powerful X-ray emissions from violent cosmic phenomena such as supernovae and black holes.

Scientists at the Harvard-Smithsonian Center for Astrophysics voiced optimism about Chandra’s prognosis on Twitter:

NASA also updated the status of efforts to boost Hubble’s gyro capabilities and get it back to work. Last week, one of the telescope’s three active gyroscopic pointing systems went out of commission, prompting the telescope to go into safe mode.

Hubble needs three working gyros for optimal operation, and so experts have been trying to revive a gyro that was taken out of operation because of a glitch.

In Friday’s update, NASA said the gyro is properly tracking Hubble’s movement, but reporting rotation rates that are consistently higher than what they actually are.

“This is similar to a speedometer on your car continuously showing that your speed is 100 miles per hour faster than it actually is; it properly shows when your car speeds up or slows down, and by how much, but the actual speed is inaccurate,” NASA said.

Hubble’s pointing system can compensate for that effect when it targets a general area of the sky, but the gyro’s performance isn’t good enough for the fine-scale pointing that’s required for scientific observations.

NASA said an anomaly review board that includes professionals experienced in the manufacturing of such gyros, plus Hubble operations personnel, flight software engineers and other experts, is trying to identify the cause of the gyro’s behavior and determine what solutions can be implemented to correct or compensate for it.

If the experts come up with a fix, Hubble can be returned to three-gyro mode. But if not, Hubble will have to switch to one-gyro mode, with a second gyro held in reserve as a backup. In that scenario, scientific observations can still be made, albeit with lower efficiency.

Any fixes will have to be in the form of commands beamed up from the ground. NASA lost its capability for servicing Hubble when the space shuttle fleet was retired in 2011, and Chandra isn’t designed for in-space repair.

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