SMART-1 star tracker video
SMART-1 star tracker animation, 1 September 2006

SMART-1 star tracker views the Moon in earthshine (UPDATED)

2 September 2006

An impressive sequence of Moon images in earthshine was taken by one of SMART-1's star trackers, or attitude cameras, on 1 September 2006. The images are presented as they were acquired, without additional processing. (Updated with extended animation 3-09-2006.)

In the final phases before impact, and as a nice add-on to the mission outcome so far, SMART-1 scientists and the flight control team, working together with the Danish Technical University (DTU) who manufactured the star tracker, took the opportunity to test a fast-tracking imaging mode and take an additional look at the Moon while the spacecraft is getting steadily closer. The star trackers are normally used to track stars and orient the spacecraft in space.

The images show a beautiful dark Moon illuminated only by light coming from Earth. SMART-1's star tracker gathered this sequence over a few seconds between 14:15 and 15:06 CEST (12:15 to 13:06 UT) on 1 September, during a slew (rotation) manoeuvre aimed at starting the next imaging session with the AMIE camera on board the spacecraft.

Star tracker in animation
Screen shot from SMART-1 star tracker animation

The constellations visible at the beginning of the sequence (when the star tracker started taking images) are Corona Australis and Sagittarius.

Then, the Sun-illuminated Moon appears in the field of view. Later, as the spacecraft continues its slew, the Moon's disk - illuminated by only earthshine - starts to appear in full beauty (see screenshot at left).

The dark highland areas correspond to flat mare basalts, about 3000 million years old. The bright spots on the surface correspond to relatively young craters showing fresh material brought to the surface by lunar impacts.

Impact crater shown in star tracker animation

Approximately one-third through the sequence, it is possible to see a remarkable feature: an impact crater (a bright circle at top right) and the elongated shapes of ejected material extending radially outward.

Later in the sequence, it is possible to see highland reliefs in an oblique view.

When taking these images, SMART-1 was flying at about 600 kilometres above the lunar surface.

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