DARPA to Transfer Advanced Space Debris Telescope to Air Force

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WASHINGTON, Oct. 18, 2016 — The Defense Advanced Research Projects Agency has worked with the Air Force to develop an advanced telescope that already is revolutionizing space situational awareness and helping prevent potential collisions with satellites or planet Earth.

An internal view of the Space Surveillance Telescope’s structure, including the wide-field camera, center. DoD photo
An internal view of the Space Surveillance Telescope’s structure, including the wide-field camera, center. DoD photo
At an event tomorrow in New Mexico, DARPA will formally transition its Space Surveillance Telescope, or SST, from an agency-led design and construction program to ownership and operation by U.S. Air Force Space Command, which has announced plans to operate the telescope jointly with the Australian government at a site in Western Australia.

“Space is congested with tens of thousands of manmade objects as well as micro-meteors, asteroids and other natural satellites,” Lindsay Millard wrote in a post on the DARPA website. “[And] space is contested by a range of manmade threats that may have adverse effects on satellites.”

First Light

Today, deep space telescopes don’t give a comprehensive picture of all objects in orbit around the Earth, Millard wrote.

Existing search telescopes have relatively narrow fields of view and can’t reliably detect and track faint objects, including small objects in geosynchronous orbits -- about 22,000 miles above the earth. Millard says that hundreds of thousands more pieces of debris and asteroids may be too faint to track with current sensors.

The telescope achieved first light in February 2011. Two years later, then-Defense Secretary Chuck Hagel and Australian Defense Minister David Johnston signed a memorandum of understanding agreeing to relocate the SST from the White Sands Missile Range in New Mexico to Harold E. Holt Naval Communication Station in Western Australia.

Australia, DARPA officials say, offers a uniquely beneficial vantage point for testing, and a place to demonstrate SST’s enhanced algorithms and camera.

Wide Field of View

NASA is already leveraging SST’s ability to see very faint objects in a wide field of view and to help warn against asteroids and other near-Earth objects, DARPA officials said in a recent press release.

A view of the M20 Trifid Nebula, or NGC6514, taken by the Defense Advanced Research Projects Agency’s advanced Space Surveillance Telescope, soon to be transitioned to the Air Force and moved to Australia, where it will provide key space situational awareness from the southern hemisphere -- a still largely unexplored area of the geosynchronous belt. DoD photo
A view of the M20 Trifid Nebula, or NGC6514, taken by the Defense Advanced Research Projects Agency’s advanced Space Surveillance Telescope, soon to be transitioned to the Air Force and moved to Australia, where it will provide key space situational awareness from the southern hemisphere -- a still largely unexplored area of the geosynchronous belt. DoD photo
With 2.2 million asteroid observations in 2014, 7.2 million in 2015 and hopes for 10 million in 2016, SST has become the most prolific tool for asteroid observation in the world. SST also has discovered 3,600 new asteroids and 69 near-Earth objects, including four that carry a risk of hitting Earth, DARPA says.

“With its amazing capabilities,” said Brad Tousley, the director of DARPA’s tactical technology office, “SST joins a prestigious list stretching back decades of game-changing space situational awareness programs on which DARPA and [Air Force Space Command] have collaborated.” Tousley’s office oversees SST.

On Oct. 18, DARPA will transfer ownership of the telescope to the Air Force and the SST will make the move to Australia to be operated and maintained by the Australian government. The SST will be a dedicated sensor in the U.S. Space Surveillance Network, operated by the Air Force Space Command.

At White Sands

Tomorrow’s White Sands event will include remarks by DARPA Deputy Director Steven Walker and senior leaders of Air Force Space Command and the Royal Australian Air Force.

Other speakers will be Air Force Maj. Gen. Nina Armagno, director of strategic plans, programs, requirements and analysis at Air Force Space Command headquarters; Air Commodore Sally Pearson, director of general surveillance and control for the Royal Australian Air Force; and Eric Evans, director of MIT Lincoln Laboratory, the federally funded research and development center leading the team that built SST.

“We’re proud to celebrate SST’s groundbreaking technological accomplishments and, more importantly, the collaboration between DARPA and the Air Force that has made them possible,” Millard wrote, noting that the SST will enable much faster discovery and tracking of previously unseen or hard-to-find small space objects.

SST has increased space situational awareness from only a few large objects at a time to a view with 10,000 objects at a time, each as small as a softball, DARPA says. The telescope also can search an area larger than the continental United States in seconds and survey the entire geosynchronous belt in its field of view -- a quarter of the sky -- multiple times in one night.

Redefining What Telescopes Can Do

Technological firsts in SST’s development are helping redefine what telescopes can do, DARPA says.

SST uses the most steeply curved primary telescope mirror ever made, for example, and the mirror lets the telescope collect more light to see images across a wider field of view than any other space surveillance telescope.

To hold the mirror, DARPA says that SST uses an innovative Mersenne-Schmidt design, which allows for a much more compact construction than traditional telescopes. SST is the largest telescope ever to use the design, making it the world’s quickest and most nimble large telescope.

Even SST’s camera includes advances, DARPA says. The SST team developed the first-ever curved charge-coupled device, or CCD, to provide clear imagery across the telescope’s wide field of view because current digital cameras with flat CCDs can’t record images from such highly curved mirrors without distortion.

The camera also has the world’s fastest telescope camera shutter and takes thousands of pictures a night. And DARPA recently upgraded the camera, faint-object detection algorithms and search speed to make it even more effective.

Eye on the Sky

SST’s eye on the sky sees objects around Earth and in the solar system and universe beyond.

“DARPA looks forward to seeing what the Air Force will do with SST,” Walker said, “and we will continue to work with them as DARPA pushes the technological envelope on space situational awareness with our Hallmark and OrbitOutlook programs.”

From Australia, DARPA says SST will provide space situational awareness information from the southern hemisphere -- an area of the geosynchronous belt that now is sparsely observed -- to the U.S. Space Surveillance Network.

The telescope also will continue to give NASA and the scientific community surveillance data on events like supernovas and potentially hazardous near-Earth asteroids.

“DARPA has worked closely with the Air Force since the agency’s creation,” Walker said, “to boldly invest in high-impact technologies so the United States can be the first to develop and adopt the novel capabilities made possible by such work.”

(Follow Cheryl Pellerin on Twitter: @PellerinDoDNews)

 
The nomenclature of this telescope is somewhat odd. A Mersenne is a pair of parabolas while a Schmidt uses a refractive corrector plate working with a spherical primary. Looking at the ray path the mirrors would seem to be a parabola followed by a hyperbola and ending with an ellipse with a final field corrector lens near the focal plane. The mirrors are all of the "meniscus" form which means they will sag and deform under their own weight but this is compensated using active actuators (small black boxes on the back of the telescope) which constantly shift as the gravity orientation changes with mirror elevation angle. The field of view of this telescope is only 3.5 degrees full angle but that is very large compared to normal telescopes.

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I think this transfer was supposed to happen awhile ago--a few years ago? I wonder why the delay?
 
blackstar said:
I think this transfer was supposed to happen awhile ago--a few years ago? I wonder why the delay?

This article gives some more info about the transfer.

With the Air Force now responsible for the telescope, it will move ahead with plans first announced in a 2013 agreement with the Australian Ministry of Defence to move SST to Australia, helping fill a gap in coverage in the Southern Hemisphere.

“That’s kind of a second ‘DARPA-hard’ challenge that we have,” Millard said of moving the telescope. The Australian government will build a new dome for the telescope at the Harold E. Holt Naval Communication Station in Western Australia. Air Force Space Command will disassemble the telescope, ship it to the new site and assemble it there. The telescope should be operational there by 2020, she said.

The telescope has applications beyond tracking objects in Earth orbit. Millard noted that the telescope has also observed millions of asteroids, including discovering 3,600 new ones. “SST has become the most prolific tool for asteroid observations in the world,” she said. NASA is in discussions with Australian officials about continued access to the telescope for asteroid observations once it’s moved to Australia, she added.

 
That sorta explains what but doesn't explain why. My recollection--which could be faulty--is that this turnover was supposed to happen a couple of years ago. Maybe they had technical problems or funding problems that delayed it. The exchange really signifies moving from a checkout to an operational phase, and a lot of things have to happen when that occurs.
 
Yeah, some of the early program documents talk about the handover happening in FY 09, which is obviously years ago. Probably the usual DARPA schedule optimism.
 

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