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New laser station lights the way to debris reduction by Staff Writers Paris (ESA) Feb 16, 2022
ESA's Izana-1 laser ranging station in Tenerife, Spain, has recently undergone months of testing and commissioning, passing its final tests with flying colours. As it reached 'station acceptance', it was handed over to ESA from the German company contracted to build it, DiGOS. The station is a technology testbed and a vital first step in making debris mitigation widely accessible to all space actors with a say in the future of our space environment. Imagine lasers pointing from Earth into the skies, seeking out satellites and bits of space trash and measuring their positions and trajectories to prevent catastrophic collisions. You don't have to try too hard - this is very nearly the day-to-day reality at ESA's new Izana 1 (IZN-1) laser ranging station in Tenerife, Spain. IZN-1, developed and now operated by ESA, is a testbed for future technologies and was installed in mid-2021 at the Teide Observatory. The station, telescope and laser have undergone months of testing and commissioning and since July last year have aimed the green beam of concentrated light to the sky to actively detect, track and observe active satellites. At present, the laser operates at 150mW but it will soon be upgraded so it can also track debris objects with a much more powerful infrared laser with an average power of 50 Watts. "Currently, only satellites fitted with retroreflectors can be tracked from ESA's Izana station, making up just a proportion of the total population," explains Clemens Heese, Head of Optical Technologies. "The station will be upgraded in the next couple of years, enabling it to perform the same vital ranging services with uncooperative targets - vitally, debris objects and older satellites without retroreflecting patches."
The first of many in Europe The technology, relatively new in the history of ground-based observations of space debris, will mean the station can track previously invisible defunct objects lurking above the blue daytime skies. As ESA's newest addition to the Space Safety family, Izana-1 provides support for vital collision avoidance and provides a testbed for new sustainable technologies like laser momentum transfer or coordination of space traffic. Such satellite and debris tracking capability in Europe could contribute to building and accessing a European catalogue of space objects.
Lasers in space. Is that ... safe? Ultimately, the IZN-1 station will use a power of under 100 Watts, giving the Izana laser about 1/20th of the energy of an electric kettle. These pinpoint light sources shine short pulses of light at their target, determining the distance, velocity and orbit of each one with millimetre precision, calculated from the time it takes to complete the return journey. Although such lasers don't come anywhere close to cutting through, or even nudging (yet) the objects they target, they can damage sensitive optical instruments on satellites and the paths of aircraft must be considered. "If lasers strike planes they can be very dangerous, as pilots can become distracted and in worst-case scenarios, lose control," explains Andrea di Mira, ESA Optoelectronics Engineer. "We are very, very careful that this does not happen, with a set of sensors scanning the sky for aircraft to ensure our lasers do not get remotely close to them". These lasers also have the potential to disrupt telescopes studying the night's sky. To prevent this, the Laser Traffic Control System (LTCS) was introduced by the Instituto de Astrofisica de Canarias (IAC) - much like IZN-1 helps to prevent collisions between objects in orbit, the LTCS software prevents 'collisions' between laser light and areas of observation. Additionally, switching to an infrared laser frequency can minimize conflicts with astronomers.
A vital step towards space traffic control Current, costly methods of collision avoidance will be futile as numbers increase and as such the international space community will need to establish a method of space traffic control. For this, precise and rapid determination of the location, velocity and orbit of space objects will be vital, and ESA's IZN-1 station will provide a much-needed testbed for this technology, far more accurate than current radar methods, to be developed.
Laser focus on the future When it comes to optical communication, it will also be upgraded to receive signals with a very high data rate of 10 gigabits and beyond (adhering to international standards) from satellites in low-Earth orbit 400 km away. Izana will then become part of a planned European Optical Nucleus Network, the first operational optical communication ground station service of its kind that will be made available to the wider commercial space community. On top of all this, the station provides an opportunity to test and develop technologies underpinning 'laser momentum transfer', in which lasers would not merely shine a light on debris objects but very gently nudge them into new orbits, out of the way of potential collisions and out of the busiest orbital highways. As IZN-1 is welcomed into to ESA's Space Safety family, so is a bright future of sustainable technologies, vital for a responsible future in orbit and beyond.
Rocket set to hit Moon was built by China, not SpaceX, say astronomers Washington DC (AFP) Feb 15, 2022 Astronomy experts say they originally misread the secrets of the night sky last month: it turns out that a rocket expected to crash into the Moon in early March was built by China, not SpaceX. A rocket will indeed strike the lunar surface on March 4, but contrary to what had been announced, it was built not by Elon Musk's company, but by Beijing, experts now say. The rocket is now said to be 2014-065B, the booster for the Chang'e 5-T1, launched in 2014 as part of the Chinese space agency's l ... read more
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