Trouble with one of the Hubble telescope’s three remaining gyroscopes, critical for aiming and locking onto targets, has prompted mission managers to switch to a backup control mode that will limit some observations but keep the iconic observatory running until the 2030s, officials said Tuesday. .
“We still believe there is a very high probability and probability that we can operate Hubble very successfully, doing groundbreaking science, throughout the rest of the 20s and into the 2030s,” project manager Patrick Crouse told reporters. Hubble during an afternoon teleconference.
At the same time, Mark Clampin, director of astrophysics at NASA headquarters, said the agency had ruled out, at least for now, a proposed commercial mission to lift Hubble to a higher altitude using a spacecraft. SpaceX Crew Dragon. The flight was suggested by SpaceX and Crew Dragon veteran Jared Isaacman as a way to extend Hubble’s life.
By raising the telescope to a higher altitude, the subtle “drag” effects in the extreme outer atmosphere, which act to slowly but surely pull the spacecraft back to Earth, can be reduced. Isaacman, a billionaire who took the first fully commercial flight into low Earth orbit in 2021, is in training to lead three more SpaceX Polaris missions, including a flight this summer in which he plans to the first private citizen to stand in an open hatch and float, if not walk, in space.
But project managers said Tuesday that Hubble is in no danger of falling back to Earth anytime soon. Recent calculations indicate that the observatory will remain in orbit until at least 2035, allowing time to consider possible options, if warranted, down the road.
“After exploring current trading capabilities, we will not pursue a renewal now,” Clampin said. “We greatly appreciate the in-depth analysis conducted by NASA and the (SpaceX-Isaacman) program and our other potential partners, and it certainly gives us better insight into the considerations for developing a future commercial resupply mission.
“But our assessment also raised a number of considerations, including potential risks such as the premature loss of science and some technological challenges. So while rebuilding is an option for the future, we believe we need to do some additional work to determine whether the long-term science return will outweigh the short-term science risk.
Although I was not at NASA during the final steps leading up to the final end (at least for now) of the Polaris-Hubble mission, I can attest to the deep analysis and extraordinary and deep collaboration between @SpaceX, Polaris and Hubble experts from NASA and STScI. https://t.co/Nf3TfTxfjv
– Thomas Zurbuchen (@Dr_ThomasZ) May 18, 2024
The Hubble Space Telescope launched aboard Discovery on April 24, 1990, with a famously flawed mirror, the opening chapter of an unlikely tale in which spacewalk repair crews turned a national embarrassment into a international icon of science.
Hubble was initially hampered by an error during the fabrication of the 94.5-inch primary mirror that resulted in an optical defect known as spherical aberration, preventing the telescope from bringing starlight into sharp focus.
But engineers quickly found a way to correct Hubble’s blurry vision. They designed a new camera equipped with relay mirrors based on recommendations that would exactly counteract the deflection of the primary mirror. Another instrument, known as COSTAR, was designed to direct the corrected light to Hubble’s other instruments.
During a shuttle servicing mission in December 1993, the new Wide Field Planetary Camera 2 and COSTAR were installed by spacewalk astronauts. They also replaced Hubble’s solar panels and other critical components.
NASA would go on to launch four more servicing missions, installing new, more advanced instruments and replacing aging components such as critical guidance sensors and gyroscopes, which move the telescope from target to target and then jam. solid durability for detailed observations.
Gyroscopes are critical to Hubble’s longevity. The telescope was launched with six ultra-stable gyroscopes, but only three at a time are needed for normal operation. During the final service mission in 2009, all six were replaced. Three of the new units included hair-thin “bent” power and data lines susceptible to some form of corrosion, while the other three had an improved design that greatly reduced or eliminated that risk.
In any case, by the time Hubble’s 30th anniversary rolled around in 2020, three of the six laps of the older model had failed.
One of the three remaining units, lap no. 3, started acting erratically earlier and its performance gradually deteriorated. On May 24, the gyro was taken offline, putting the observatory into protective “safe mode,” halting science operations while engineers discussed their options.
Knowing that gyro failures were inevitable, engineers first developed software that would allow Hubble to operate with just two gyros or even one. The downside was that the telescope could only hit targets in half the sky at any given time instead of 85 percent or more with all three passes.
Although the telescope could be operated more efficiently with two spins, engineers concluded that it would make more sense to put one of the two remaining healthy units on standby and operate Hubble with only one spin, keeping the other in reserve for use. as it should be.
“Our team first developed a plan for single-orbit operations more than 20 years ago, and it’s the best way forward to extend Hubble’s life,” Crouse said. “There are some limitations. It will take us more time to (move) from one objective stance to another and to be able to lock in that scientific objective.
“This will lead to lower efficiency for planning scientific observations. We currently plan about 85 orbits per week and expect (to be) able to plan about 74 hours per week, so about a 12 percent reduction in planning efficiency.”
Additionally, because moving the telescope in single-pass mode is less precise and subject to error, “we won’t have as much flexibility as to where we can observe in the sky at any given time. But over the course of a year, we will have the full sky at our disposal.”
Another limitation: the telescope will not be able to lock on and track targets closer than the orbit of Mars, although such observations were rare even in three-pass mode.
In the meantime, engineers plan to implement single-pass control mode in the coming days and return Hubble to science operations around the middle of the month.
“We updated the reliability estimates for the gyro … and we still conclude that (we have) a greater than 70 percent probability of operating at least one gyro by 2035,” Crouse said.
The infrared-sensitive James Webb Space Telescope is building on Hubble’s legacy, reaching deeper into space and time and producing a steady stream of discoveries as it moves to the forefront of space-based astronomy. But Hubble is still making world-class observations, and astronomers want to keep it running as long as possible.
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Image Source : spaceflightnow.com