NASA New Horizons: Images of Pluto's dark side produced using reflected sunlight from Charon

[Hamartia Antidote]

Images of Pluto's dark side produced using reflected sunlight from Charon

A team of scientists produced images of Pluto's dark side using reflected sunlight from its large moon Charon in images taken by the New Horizons spacecraft.

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A team of scientists produced images of Pluto’s dark side using reflected sunlight from its large moon Charon in images taken by the New Horizons spacecraft to tease out features on that side in low resolution.

Because New Horizons was a flyby mission, it could image just one side of Pluto — known as the encounter side — in high resolution. Much blurrier, low-resolution photos captured some of the planet’s far side. Some areas, such as the south polar region, were left in complete darkness.

Now, a science team led by Tod Lauer of the National Optical Infrared Astronomy Research Laboratory (NOIRLab), conducted the difficult process of identifying features on Pluto’s far side illuminated by reflected sunlight from Charon using new imagery techniques.

Pluto and Charon are separated by just 12,200 miles (19,640 kilometers), as compared with the Earth and Moon, which are separated by approximately 238,855 miles (384,400 kilometers).

To produce an image with at least partially identifiable features, the researchers had to account for the glare of the Sun, Pluto’s hazy atmosphere and a general blurring caused by the spacecraft’s speed in traversing the system.

Their efforts revealed Pluto’s south polar region to have a low level of brightness or albedo. This is surprising because other regions of Pluto are very bright due to the presence of nitrogen ice deposits. The low albedo means this region, which is now experiencing winter and in perpetual darkness, does not have many nitrogen ice deposits, a surprising development given that ice condenses and falls back to the surface as snow during the colder seasons.

One possibility is that Pluto experiences thermal inertia, a phenomenon in which an object resists temperature changes that bring its temperature in line with — that of its environment. Pluto’s south pole is just coming out of its warmer summer season, and the slow temperature change could also be related to organic material on its southern hemisphere’s surface.

Lauer’s team did find one region with a high albedo, probably a crater with ice deposits like those seen on Pluto’s encounter side.

Identification of these features, which until now have been difficult to see, will help scientists better understand Pluto’s seasonal cycles and the atmospheric changes that characterize these cycles.

A paper on the findings has been published in The Planetary Science Journal.