NASA's latest planet-hunting probe has beamed back a stunning sequence of images showing a comet in motion 48 million kilometers from Earth.
Taken over the course of 17 hours on July 25, the day the Transiting Exoplanet Survey Satellite (TESS) started science operations, the images helped demonstrate the satellite's ability to collect a prolonged set of stable periodic images covering a broad region of the sky - all critical factors in finding transiting planets orbiting nearby stars.
ALSO READ | 'Vegetable Maths Masters' app may encourage kids to eat veggies
Over the course of these tests, TESS took images of C/2018 N1, a comet discovered by NASA's Near-Earth Object Wide-field Infrared Survey Explorer (NEOWISE) satellite on June 29.
The comet, located about 48 million kilometres from Earth in the southern constellation Piscis Austrinus, is seen to move across the frame from right to left as it orbits the Sun.
The comet's tail, which consists of gases carried away from the comet by an outflow from the Sun called the solar wind, extends to the top of the frame and gradually pivots as the comet glides across the field of view.
In addition to the comet, the images showed a treasure trove of other astronomical activity. The stars appear to shift between white and black as a result of image processing.
The shift also highlights variable stars - which change brightness either as a result of pulsation, rapid rotation, or by eclipsing binary neighbours.
ALSO READ | What if our Earth had no gravity?
Asteroids in our solar system appear as small white dots moving across the field of view. Stray light from Mars, which is located outside the frame, can be seen as a faint broad arc of light, moving across the middle section of the frame from left to right.
The images were taken when Mars was at its brightest near opposition, or its closest distance, to Earth. The images were taken during a short period near the end of the mission's commissioning phase, prior to the start of science operations.
They present just a small fraction of TESS's active field of view.