New Laser To Help Clear The Sky of Space Debris (Planetary Science)

Adaptive optics is like removing the twinkle from the stars

Researchers at The Australian National University (ANU) have harnessed a technique that helps telescopes see objects in the night sky more clearly to fight against dangerous and costly space debris.

The researchers’ work on adaptive optics – which removes the haziness caused by turbulence in the atmosphere – has been applied to a new ‘guide star’ laser for better identifying, tracking and safely moving space debris.

Space debris is a major threat to the $US700 billion of space infrastructure delivering vital services around the globe each day. With laser guide star adaptive optics, this infrastructure now has a new line of defence.

The optics that focus and direct the guide star laser have been developed by the ANU researchers with colleagues from Electro Optic Systems (EOS), RMIT University, Japan and the USA as part of the Space Environment Research Centre (SERC).

EOS will now commercialise the new guide star laser technology, which could also be incorporated in tool kits to enable high-bandwidth ground to space satellite communications.

The laser beams used for tracking space junk use infrared light and aren’t visible. In contrast, the new guide star laser, which is mounted on a telescope, propagates a visible orange beam into the night sky to create an artificial star that can be used to accurately measure light distortion between Earth and space. 

This guiding orange light enables adaptive optics to sharpen images of space debris. It can also guide a second, more powerful infra-red laser beam through the atmosphere to precisely track space debris or even safely move them out of orbit to avoid collisions with other debris and eventually burn up in the atmosphere.

Lead researcher, Professor Celine D’Orgeville from ANU, says adaptive optics is like “removing the twinkle from the stars”.

“But that’s a good thing,” Professor D’Orgeville said.

“Without adaptive optics, a telescope sees an object in space like a blob of light. This is because our atmosphere distorts the light travelling between the Earth and those objects.

“But with adaptive optics, these objects become easier to see and their images become a lot sharper. Essentially, adaptive optics cuts through the distortion in our atmosphere, making sure we can clearly see the incredible images our powerful telescopes capture.

“This includes small, human-made objects – like weather and communication satellites, or space junk.

“That’s why this development is such an important breakthrough when it comes to our efforts to clear our night skies of the ever-increasing clutter of space debris.”

The EOS guide star laser and the ANU adaptive optics systems are located at the ANU Mount Stromlo Observatory in Canberra, Australia.

The ANU researchers will now work with EOS to test the new technology and apply it to a range of other applications including laser communications between the Earth and space.

It’s an exciting development that will help to safeguard the wide range of vital applications of space technology in the 21st century.

Read more about the ANU researchers’ work on adaptive optics in Scientific American. 

The research was funded by the Australian Government’s Cooperative Research Centre Program, EOS, ANU, RMIT University and partners in Japan and the USA.

Featured image: In this picture ANU instrument scientist Celine d’Orgeville stands in front of the EOS 1.8 meter telescope at Mount Stromlo Observatory where her image is reflected an infinite amount of times by the two telescope mirrors. © ANU


Provided by Australian National University

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