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ESA\u2019s Mars Express<\/a> recently tracked Phobos as the moon passed in front of the spacecraft’s camera, capturing detailed views of the small, irregularly shaped body at different angles and stages of the flyby. This sequence comprises 41 images taken by the High Resolution Stereo Camera\u2019s Super Resolution Channel<\/a> on 17 November 2019 during orbit 20 076, when Phobos passed Mars Express at a distance of roughly 2400 km. The images have a resolution of 21 m\/pixel.<\/p>\n This opportunity allowed the spacecraft to capture many features across the moon\u2019s surface; alongside a number of impact craters (including the large and prominent Stickney crater<\/a>), one can see a number of linear marks and furrows.<\/p>\n The movie shows Phobos at a number of angles \u2013 the moon can be seen rotating, and slowly lightens up before it begins to darken again. The slight up-and-down motion of the moon is caused by the oscillation of Mars Express. It nicely illustrates the concept of \u2018phase angle\u2019: the angle between a light source (in this case, the Sun) and the observer (Mars Express\u2019 HRSC), as viewed from the target object itself (Phobos). The initial phase angle is 17 degrees, drops to almost 0 degrees mid-way through (0.92, when Phobos is at its brightest), and then rises to 15 degrees by the end of the animation.<\/p>\n This arrangement \u2013 of the Sun, Mars Express and Phobos where the latter is observed at a phase angle of near zero degrees \u2013 is very rare, and happens only three times a year at most. Other chances to achieve a phase angle of under one will not occur until April and then September of 2020. As such, Mars Express takes every opportunity to view this small and intriguing moon from this angle, to shed light on its properties, behaviour, possible origin, orbital characteristics and location in space \u2013 and to probe its potential as a mission destination.<\/p>\n