An international team of scientists have put forward a blueprint for a purely space-based system to solve the growing problem of space debris.
The proposal, published in Acta Astronautica, combines a super-wide field-of-view telescope, developed by RIKEN’s EUSO team, which will be used to detect objects, and a recently developed high-efficiency laser system, the CAN laser that was presented in Nature Photonics in 2013, that will be used to track space debris and remove it from orbit.
Space debris, which is continuously accumulating as a result of human space activities, consists of artificial objects orbiting the earth. The number of objects nearly doubled from 2000 to 2014 and they have become a major obstacle to space development. The total mass of space debris is calculated to be about 3,000 tons. It consists of derelict satellites, rocket bodies and parts, and small fragments produced by collisions between debris.
Because the debris exists in different orbits, it is difficult to capture. The objects can collide with space infrastructure such as the International Space Station (ISS) and active satellites. As a result, developing remediation technology has become a major challenge.
The EUSO telescope, which will be used to find debris, was originally planned to detect ultraviolet light emitted from air showers produced by ultra-high energy cosmic rays entering the atmosphere at night. “We realized,” says Toshikazu Ebisuzaki, who led the effort, “that we could put it to another use. During twilight, thanks to EUSO’s wide field of view and powerful optics, we could adapt it to the new mission of detecting high-velocity debris in orbit near the ISS.”
The second part of the experiment, the CAN laser, was originally developed to power particle accelerators. It consists of bundles of optical fibers that act in concert to efficiently produce powerful laser pulses. It achieves both high power and a high repetition rate.
The new method combining these two instruments will be capable of tracking down and deorbiting the most dangerous space debris, around the size of one centimeter. The intense laser beam focused on the debris will produce high-velocity plasma ablation, and the reaction force will reduce its orbital velocity, leading to its reentry into the earth’s atmosphere.
The group plans to deploy a small proof-of-concept experiment on the ISS, with a small, 20-centimeter version of the EUSO telescope and a laser with 100 fibers. “If that goes well,” says Ebisuzaki, “we plan to install a full-scale version on the ISS, incorporating a three-meter telescope and a laser with 10,000 fibers, giving it the ability to deorbit debris with a range of approximately 100 kilometers. Looking further to the future, we could create a free-flyer mission and put it into a polar orbit at an altitude near 800 kilometers, where the greatest concentration of debris is found.”
According to Ebisuzaki, “Our proposal is radically different from the more conventional approach that is ground based, and we believe it is a more manageable approach that will be accurate, fast, and cheap. We may finally have a way to stop the headache of rapidly growing space debris that endangers space activities. We believe that this dedicated system could remove most of the centimeter-sized debris within five years of operation.”
Read more: A blueprint for clearing the skies of space debris
The Latest on: Space debris
[google_news title=”” keyword=”Space debris” num_posts=”10″ blurb_length=”0″ show_thumb=”left”]
via Google News
The Latest on: Space debris
- Adam Minter: Our space junk problem just got a cheap solutionon March 31, 2023 at 3:51 am
For years now, scientists and engineers have been dreaming up alternatives — mainly pricey new robots that could remove rapidly multiplying space junk or shove it further into space. But what if the ...
- China Plans to Make Its Space Debris Hit the Ground a Little Sloweron March 29, 2023 at 1:40 pm
China's space program is finalizinga recovery system that will allow discarded rocket boosters to gently and accurately descend to earth via parachutes.
- Opinion: Our space junk problem just got a cheap solutionon March 28, 2023 at 3:05 pm
The best defense against junk in space may be just moving out of the way, Bloomberg Opinion columnist Adam Minter writes.
- Active Space Debris Removal Market | New Report 2030on March 27, 2023 at 10:42 am
Active Space Debris Removal Market” Are a Collection of Information and Analysis Obtained From Diverse Sources to ...
- Satellites and space junk may make dark night skies brighter, hindering astronomy and hiding stars from our viewon March 26, 2023 at 10:30 pm
However, the night sky is changing. Not only is ground-based light pollution increasing rapidly, but growing numbers of satellites and space debris in orbit around Earth are also impacting the ...
- NASA hopes to clean up space junk; experts say the days of uncluttered night skies are "over"on March 25, 2023 at 7:00 am
High-powered lasers and special robots that collect junk are among the proposals for cleaning up orbital debris ...
- Our Space Junk Problem Just Got a Cheap Solutionon March 23, 2023 at 5:55 am
Last week a hunk of space junk hurtled toward the International Space Station, putting the safety of astronauts and their orbiting outpost at risk. Fortunately, the cosmic hazard was detected ...
- Astronomers urge action over light pollution caused by space debrison March 20, 2023 at 9:05 am
"We all share the sky." Estimates suggest that the number of satellites in orbit is expected to increase from 9,000 today to over 60,000 by 2030.
- Space Junk Will Make Astronomy More Difficult And More Expensive, Says New Reporton March 19, 2023 at 5:00 pm
Space near the Earth is becoming crowded by thousands of orbiting satellites and astronomers now ... [+] fear that important astronomical discoveries could become “lost in the noise” of these ...
via Bing News