The James Webb Space Telescope fully deployed its tennis-court sized sunshield Tuesday, a critical milestone for the success of its mission to study every phase of cosmic history, NASA said.
"All five layers of the sunshield are fully tensioned," said an announcer at the observatory's control center in Baltimore, where team members cheered, a live feed showed.
Each of the layers was unfolded one by one over two days. Working together they offer an SPF (sun protection factor) of about one million.
Because the telescope was too large to fit into a rocket's nose cone in its operational configuration, it had to be transported folded, origami style. Unfurling is a complex and challenging task, the most daunting such deployment NASA has ever attempted.
"This is the first time anyone has ever attempted to put a telescope this large into space," Thomas Zurbuchen, associate administrator for NASA's science mission directorate, said in a statement.
"The success of its most challenging deployment -- the sunshield -- is an incredible testament to the human ingenuity and engineering skill that will enable Webb to accomplish its science goals."
Hillary Stock, a sunshield deployment specialist for Northrop Grumman, told reporters on a call: "It was a wonderful moment. There was a lot of joy, a lot of relief."
Its infrared technology allows it to see the first stars and galaxies that formed 13.5 billion years ago, giving astronomers new insight into the earliest epoch of the Universe.
Visible and ultraviolet light emitted by the very first luminous objects has been stretched by the Universe's expansion, and arrives today in the form of infrared, which Webb is equipped to detect with unprecedented clarity.
Its mission also includes the study of distant planets to determine their origin, evolution, and habitability.
- Built to withstand meteoroids -
The sunshield will be permanently positioned between the telescope and the Sun, Earth and Moon, with the Sun-facing side built to withstand 230 degrees Fahrenheit (110 degrees Celsius).
Each successive layer is cooler than the one above it, allowing the telescope's sensitive instruments to operate at -380F.
It is made of lightweight material called Kapton, coated with treated silicon. It also has special "ripstop" seaming to limit damage from meteoroids.
Though Webb will reach its space destination, known as the second Lagrange point, in a matter of weeks, it still has around another five and a half months of setup to go.
Next steps include deploying its secondary and primary mirror wings, aligning the telescope's optics, and calibrating its science instruments.