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The mirror and the instruments are protected from the light of our Sun by a tennis-court sized thermal shield, made up of five superimposed layers.
Each layer is hair thin, and together they ensure the telescope operates in the darkness needed to capture faint glimmers from the far reaches of the Universe.
Million miles away
Unlike the Hubble telescope which revolves around the Earth, Webb orbits around the Sun, nearly a million miles (1.6 million kilometers) from us, or four times the distance from our planet to the Moon.
It took the spacecraft almost a month to reach this region, called Lagrange Point two, where it remains in a fixed position behind the Earth and Sun to give it a clear view of the cosmos.
Here, the gravity from the sun and Earth balance the centrifugal motion of a satellite, meaning it needs minimal fuel for course correction.
13.8 billion years
In astronomy, the farther out you see, the deeper back in time you're looking.
Webb's infrared capabilities are what make it uniquely powerful—allowing it to detect light from the earliest stars, which has been stretched into infrared wavelengths as the Universe expanded.
This lets it peer further back in time than any previous telescope, to within a few hundred million years after the Big Bang, 13.8 billion years ago.
Three-decade wait
The project was first conceived in the 1990s, but construction did not begin until 2004.
Then Webb's launch date was repeatedly postponed. Initially set for 2007, it finally took place on December 25, 2021, aboard an Ariane 5 rocket, from French Guiana.
$10 billion
Webb is an international collaboration between US space agency NASA, the European Space Agency (ESA), and the Canadian Space Agency (CSA), involving more than 10,000 people.
The lifetime cost to NASA alone will be approximately $9.7 billion, according to an analysis by the Planetary Society, or $10.8 billion adjusted for inflation to 2020 dollars.
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© 2022 AFP