The deep-space telescope Herschel has taken its final bow ending a successful mission to observe the birth of stars and galaxies, the European Space Agency said.
The largest and most powerful infrared telescope in space, Herschel made more than 35,000 scientific observations and amassed more than 25,000 hours of science data during its four-year mission, which ended on Monday.
“Herschel has been turned off,” ESA director general Jean-Jacques Dordain told journalists at the Paris Air Show.
“It is not a surprise, it was expected, it was scheduled,” he added.
Herschel has run out of a supply of liquid helium required to cool its instruments to near absolute zero (minus 273.15 degrees Celsius) in order to make its observations.
“As it heats up it becomes unusable,” said Dordain, explaining why the data link with Herschel was shut down at 12.25 GMT on Monday.
Its mission officially ended on April 29, but the satellite was used in its dying weeks as an “orbiting testbed”, said an ESA statement.
“We had a sophisticated spacecraft at our disposal on which we could conduct technical testing and validate techniques, software and the functionality of systems that are going to be reused on future spacecraft,” said Herschel’s spacecraft operations manager, Micha Schmidt.
“This was a major bonus for us.”
The satellite has now been placed in a safe, “disposal” orbit around the Sun.
“The last thruster burn came today, ensuring that all fuel is depleted,” said the ESA statement.
Launched in May 2009, Herschel carried 2,300 litres of liquid helium coolant, which evaporated over time.
It cost $1.4bn, and was named after Sir William Herschel, the German-born British astronomer who discovered Uranus in 1781 and infrared radiation in 1800.
It carried three cameras and spectrometers and a primary mirror 3.5 metres (11.37 feet) across – able to collect almost 20 times more light than any previous infrared space telescope.
Its infrared technology allowed Herschel to see galaxies that were previously hidden from scientists’ view by cosmic dust clouds and in 2011, it was reported the telescope had found the first confirmed evidence of oxygen molecules in space.