After the Earth swing-by on December 3 (Thu.), 2015, Hayabusa2 turned the telephoto lens of its ONC-T camera back on our own planet. What it captured was a stunning visual of the Antarctica region.
The ONC-T camera (Optical Navigation Camera - Telescopic) can take multi-colour images with seven filters. An image based on three of the filters is shown in Figure 1, which shows the Australia and Antarctica continents. Since the Antarctic region is difficult to observe with meteorological satellites, such as Himawari, this is a rare picture of the Earth.
Coincidently, the 57th Japanese Antarctic Research Expedition (JARE57) is currently onboard the icebreaker vessel, Shirase, on her way to the Showa Station in Antarctica. The image clearly shows that a series of vorteses of low-pressure systems in the Roaring Forties and Furious Fifties winds are waiting for the expedition members.
Hayabusa2 is travelling to Asteroid Ryugu to analyse and bring back hydrated minerals and organic matter. With its seven filters, the ONC-T camera can image the asteroid to find the location of these compounds, as well as determining the best place for the spacecraft to touch down.
An example of its effectiveness is shown in Figure 2. On the left-hand image, the ONC-T filters were used to show locations where plants exist. This is superimposed over the image in Figure 1 on the right-hand side. While New Zealand and the African Continent were previously concealed by cloud, they stand out sharply in their plant life. Meanwhile, Antarctica is completely dark in the green overlay image, depicting a foliage-free region.
In the right-hand panel of Figure 3, the ONC-T filters have picked out the Antarctica ice in blue and the clouds in white. With a normal camera, these would be hard to differentiate as both would appear in similar hues. Now the natural features of the coastline and mountain range that traverses the continent can be clearly recognized in the blue ice image.
The ONC-T camera therefore allows us to get information not only on appearance, but also the material properties. Prior to launch, the ONC-T functionality was checked extensively and these images beautifully confirm that the camera is working as planned. The next stop will be the surface of Asteroid Ryugu, where ONC-T will be deciding the best locations to collect the precious cargo of organic matter and hydrated minerals. Hayabusa2 will arrive at Ryugu in 2018.
※ONC-T was developed by JAXA, The University of Tokyo, Chiba Institute of Technology, Rikkyo University, Meiji University, Nagoya University, The University of Aizu, and Kochi University. The image processing in this article was done with the support of National Institute of Advanced Industrial Science and Technology (AIST).
Related link : News by Kameda Lab. in the faculty of science, Rikkyo University