extreme conditions of space

To simulate the extreme conditions of space, SRON scientists built a space simulator and tailored it to test Plato. It creates the environment found in space, with pressure close to vacuum and temperatures close to absolute zero, and also generates artificial starlight. A mechanism that still works under these extreme conditions moves the camera to allow testing the full field of view. The researchers can verify within one millionth part of a circle in which direction the camera is looking at.

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SRON’s Plato team. Credit: SRON.

extensive test program

Over a six week period, Plato’s prototype camera, called the Engineering Model, underwent an extensive test program to demonstrate the required performance and to make sure that this performance is not affected by cycling through all possible expected temperatures. ‘It turns out that all features of the Engineering Model function as expected,’ says Lorenza Ferrari, the project manager. ‘This is good news for Plato in general, and it is also shows that our space simulator works extremely well.’

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paris, madrid and groningen

Over the spring and summer, additional simulators in Paris and Madrid will reproduce the test results achieved at SRON on the same camera, thus providing the necessary cross-calibration between the three setups. The final version of the Plato satellite, called the Flight Model, will contain 26 cameras. To keep up with the schedule towards the launch in 2026, testing all of them will be divided among Groningen (SRON), Paris (IAS) and Madrid (INTA). SRON will receive the first of eight Flight cameras in the fall of this year. Testing all of them will take until the end of 2023.

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Plato’s cave: month-long endurance test under space conditions in Europe’s largest thermal vacuum chamber at ESA. Credit: ESA.

optical bench

The optical bench that will secure the 26 cameras in place is now undergoing a month-long soak in Europe’s largest thermal vacuum chamber at ESA to test its endurance under space conditions. Testing includes ‘thermal cycling’ to assess how the optic bench responds to the shifting of temperature between light and darkness, and ‘thermal balance’ to measure the operating temperature that it maintains in these conditions.

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