Gaia—the billion-star surveyor—proven to withstand temperature extremes

September 12th, 2012 in Astronomy & Space / Space Exploration
Gaia--the billion-star surveyor--proven to withstand temperature extremes
Gaia’s service module has undergone thermal–vacuum testing inside the SIMLES facility at Intespace, Toulouse. The service module is the cylindrical component seen in the image, covered in silver and black insulation sheets. It sits on a temporary tripod inside the barrel-shaped test chamber, which is seen here in an open configuration. A bundle of test cables connect to various temperature sensors and test heaters. The test lasted for 19 consecutive days between 23 July and 10 August. Credit: Astrium SAS


Gaia’s service module has undergone thermal–vacuum testing inside the SIMLES facility at Intespace, Toulouse. The service module is the cylindrical component seen in the image, covered in silver and black insulation sheets. It sits on a temporary tripod inside the barrel-shaped test chamber, which is seen here in an open configuration. A bundle of test cables connect to various temperature sensors and test heaters. The test lasted for 19 consecutive days between 23 July and 10 August. Credit: Astrium SAS

(Phys.org)—ESA's Gaia mission to survey a billion stars has passed a gruelling test to prove it can withstand the extreme temperatures it will experience in space when it is launched next year. 

After arrival at its working position some 1.5 million km from Earth, Gaia will operate at a temperature of –110°C, shielded from the heat of the Sun by a giant shade attached to the spacecraft to keep its instruments in permanent shadow.

The focus of the most recent test was Gaia's service module, which houses electronic units to run the , as well as the units that provide the spacecraft resources, such as thermal control, propulsion, communication, and attitude and orbit control.

The tests were carried out at Intespace, a spacecraft in Toulouse, inside a barrel-shaped chamber. Here, Gaia was entombed under and subjected to a range of temperatures.  

During the 19-day test, Gaia endured two types of test: the thermal balance and the thermal–vacuum cycle.

Gaia--the billion-star surveyor--proven to withstand temperature extremes
Close-up of Gaia’s service module inside the SIMLES test facility at Intespace, Toulouse, during thermal balance and thermal–vacuum testing. The service module houses electronic units to run the mission’s science instruments, and the units required to provide the spacecraft resources, such as thermal control, propulsion, communication, and attitude and orbit control. Credit: Astrium SAS

In the thermal balance test Gaia's service module units were switched on and their response to a frigid environment of –170°C analysed.

In the thermal–vacuum cycle, the temperatures of the units were pushed to their limits with the aid of heaters, and functional tests verified the instruments could still work properly.

Temperatures between –20°C and +70°C were recorded inside Gaia during the test period.

"The thermal tests went very well; all measurements were close to predictions and the spacecraft proved to be robust with stable behaviour," reports Gaia Project Manager Giuseppe Sarri.

Later this year, the same thermal tests will be carried out on Gaia's payload module, which contains the , for around two months.

The payload module will then be mated to the service module at the beginning of 2013.

Once in space, Gaia will make of the positions and motions of a billion stars. The information will be used to create a 3D map of stars in our home Galaxy, the Milky Way, revealing information about its composition, formation and evolution.

"The latest thermal test marks a major milestone achieved in the development of ," says Giuseppe.

"It demonstrated that the service module is compatible with working in space and that we are on track for launch by the end of next year."

Provided by European Space Agency

"Gaia—the billion-star surveyor—proven to withstand temperature extremes." September 12th, 2012. http://phys.org/news/2012-09-gaiathe-billion-star-surveyorproven-temperature-extremes.html