This $10 billion space telescope will reveal the secrets of the universe

So far, what scientists have observed from this time period looks similar to what we already understand.

“However, logic dictates that at some point during the first few hundred million years, these familiar-looking objects must have come from somewhere and evolved,” Rieke said. “After all, galaxies don’t spring up from nothing, virtually overnight.”

The infrared camera on Webb could reveal the faint first light from galaxies as they formed during the infancy of the universe.

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As the universe expands, these faraway galaxies are moving away from us so rapidly that their wavelengths of light become stretched out until the point that they are only faintly visible in infrared light, Rieke said.

Origins of the universe and how it evolved

With Webb’s capabilities, researchers should be able to get four times closer to the Big Bang than the Hubble Space Telescope, she said. Hubble observed the universe 450 billion years after the Big Bang.

Marcia Rieke’s husband George Rieke, a Regents Professor of Astronomy at the University of Arizona’s Steward Observatory, is also working on Webb as the science team lead for the telescope’s Mid-Infrared Instrument. This instrument will allow Webb to look even farther across the infrared spectrum.

Collecting infrared observations from space prevents interference created by the heat from our planet and its atmosphere.

The spacecraft includes a five-layer sunshield that will unfurl to reach the size of a tennis court. It will protect Webb’s giant mirror and instruments from the sun’s heat because they need to be kept at a very frigid negative 370 degrees Fahrenheit (negative 188 degrees Celsius) to operate.

“This is really exciting that we’re going to be looking at things that were just completely out of reach before,” George Rieke said.

Key questions about the universe can be answered when scientists have access to data from different wavelengths of light.

“Excitement in astronomy in the last 70 years has been looking at different wavelengths,” George Rieke said. “Before that, all astronomy was done in optical (visible light) and looking at the universe in optical is like going to the symphony concert and only listening to one note. Now, we’ve got the whole symphony.”

Observations by Webb could confirm or entirely upend predictions and ideas that scientists have about the origin of the universe and how it evolved.

“We want to know, how did we get here from the Big Bang?” said John Mather, NASA’s senior project scientist for the James Webb Space Telescope. “We want to look at those first galaxies growing. There are dark areas of dust skewing our view of those earliest times when the stars are growing, but we can see them with infrared.”

Understanding why distant galaxies are so different from those closer to our own Milky Way galaxy would help fill a critical knowledge gap.

“We have this 13.8 billion year story of the universe, and we’re missing a few key paragraphs in the very first chapter of the story,” said Amber Straughn, an astrophysicist and Webb deputy project scientist for communications at NASA’s Goddard Space Flight Center in Maryland.

“What we’re really trying to do here is is figure out how to pull those pieces of the story together and learn more about that whole process.”