Danish astronaut delivers superb results to DTU Space

Monday 02 Nov 15

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Torsten Neubert
Chief Consultant
DTU Space
+4545 25 97 31

Contact

Olivier Chanrion
Senior Researcher
DTU Space
+4545 25 97 81

See Andreas' lightning video

Andreas Mogensen filmed a cluster of lightning flashes from ISS. The big blobs of light are ordinary lightning flashes that illuminate the clouds above them. However, there are brief discharges above the clouds that cannot be seen just by playing the video - these blue jets (in the lower right e.g. at 00:03) and red sprites (in the upper left at 00:20) can only be seen by stepping through the video frame by frame. In the bottom left hand corner you can see part of the ISS faintly illuminated.

  

 

Denmark can finally call itself a full member of the international space-faring community with the successful completion of Andreas Mogensen's mission to the Internation Space Station (ISS) in September. Since his return researchers at DTU Space have been busy processing the pictures he took of storm clouds and lightning as part of the Thor project. The results are beautiful to behold and far exceed the research team's expectations.

Denmark has long been an internationally recognised space-faring nation. The Danish geomagnetism satellite, Oersted, was launched in 1998, and the Danish x-ray space telescope JEM-X has been sending astrophysics data back to DTU Space from ESAs INTEGRAL satellite since 2002 - to mention just two Danish space missions. But one milestone was still lacking, until September 2nd 2015: a dane in space.

Danish aeronautics engineer and spacecraft landing-systems researcher, Andreas Mogensen was chosen to train as part of ESA's astronaut corps in 2009, when the European Space Agency decided to take in a new batch of raw recruits - six in all, from France, Italy, Germany, England and Denmark. The aspiring astronaut had to wait until 2013 to get a mission assignment and has been in training for his 10-day mission ever since.

Short duration missions like Andreas' are a necessary part of the ISS programme of ultra-long duration missions, a year in length. Until this year the standard ISS mission lasted 6 months, with crews of 3 sent up in staggered shifts in the 3-person Russian Soyuz capsule which remained docked for the duration of their stay, both as lifeboat in an emergency, and transport on the way home again. However, Soyuz spacecraft can only tolerate about 6 months in space, thanks to the tough environment outside the Earth's atmosphere. So when ISS planners started talking about 1- year missions, a schedule of Soyuz flights to replace aging capsules had to be factored into the new programme.

Andreas and his crewmates, a second generation kosmonaut Sergei Volkov and a Kazahk kosmonaut Aidyn Aimbetov, were sent to ISS in a textbook-perfect launch from Kazahkstan early on 2nd September, with Soyuz flight 18-M. Ten days later they braved the rapid return to Earth, in Soyuz flight 16-M, the old capsule that in March had taken two ultra-long duration astronauts to ISS. Scott Kelly and Mikhail Kornienko who have already been living and working on ISS for 6 months will continue on the space station for another 6 months, returning in capsule 18-M in 2016.

The launch, docking, hatch opening, live video interviews and return to Earth were all watched with enormous interest in Denmark, that can only be compared to the excitement and national pride last seen for the wedding of Denmark's crown prince and princess in 2004.

Life on ISS however, does not include idleness, and with the 18-M capsule safely docked, the visiting astronauts had to settle down to an intense schedule of scientific experiments. Andreas was assigned a number of Danish experiments as well as other European projects, including testing a new form of water filtration system from Danish company, Aquaporin. But his biggest success came with DTU Space's Thor project.

Thor is a precursor of Denmarks hitherto largest space mission, ASIM. Andreas' brief consistented of photographing giant lightning strikes, in the hope of capturing the illusive flashes that travel upwards from the most violent thunderstorms to the edge of space itself. It sounds easy enough, but getting an astronaut to take pictures requires sending lists of target storms three days in advance of the photography session. Initially, Torsten Neubert, the scientific leader of the Thor project at DTU Space, saw Andreas' work simply as a way of checking the procedures, filters, exposure times and prediction system needed to ensure good pictures of likely storms. However, Andreas was so captivated by the project that he took the camera with him on breaks and continued filming on his free time.

There was much jubilation amongst DTU Space researchers when stills from Andreas' spare-time video were sent to the institute, because the industrious astronaut has managed to capture two beautiful examples of the giant lightning the group was hoping to see: a collection of red sprites, and a flickering of blue jets. This was the first time ever that pulsing blue jets have been captured on film These results far exceeded the group's expectations, and must be entirely credited to Andreas Mogensen's patience and enthusiasm.

Future ISS astronauts will continue the Thor project, notably frenchman Thomas Pesquet who starts a long-duration mission to ISS in 2016. But Thor is just the beginning of DTU Space's lightning research from the ISS. In February 2017 the Danish lightning recording system, ASIM, will be fixed to the underside of ISS to start 2 years of continuous monitoring of thunderstorms in both optical light and x-rays. The ASIM x-ray instrument builds on DTU Space's experience constructing x-ray telescopes for astronomical purposes, such as the JEM-X space telescopes on ESA's INTEGRAL satellite.

The giant lightning flashes being studied by the Thor and ASIM projects were discovered only 25 years ago, but hold the key to understanding the Earth's complex electrical circuitry that drives the storms and currents that churn up the atmosphere. As such they are very important for understanding and modelling the Earth's weather and climate. The Thor and ASIM projects are just two projects in DTU Space's extensive and varied research into the processes that drive the Earth's weather systems and mechanisms that are affected by climate change.

"Because of the short mission length we didn't expect to see any new scientific data. But we were wrong. Andreas managed to capture a pulsing Blue Jet for the first time ever."
Torsten Neubert