Joy of discovery: How Webb telescope expands world’s sense of wonder

Never before has humanity seen the cosmos like this.

Diamond-like stars dazzle in the foreground. Gas and dust billow out from cosmic collisions appearing to set the sky ablaze in rusty red tones. There are spiral galaxies, galaxies warped like pizza dough thrown in the air, merging galaxies, and galaxies appearing as faint red smudges so deep in the background that astronomers say the image captures the light they emitted perhaps 13.1 billion years ago. 

The first images from the James Webb Space Telescope (JWST) were released by NASA this week, revealing the most detailed view of the deepest parts of our universe yet and heralding a new era of astronomy. With its infrared “eyes,” the new space telescope has unveiled some of the earliest moments of the universe’s existence. This expanded view promises to reveal vital clues to cosmic mysteries that have long puzzled scientists.

In the excitement over this initial burst of images from the JWST, scientific ingenuity coincides with pure joy. We’ve been literally star-struck as the photos render the unimaginably distant, up close and beautiful. 

NASA, ESA, CSA, STScI via AP

This image provided by NASA on Monday, July 11, 2022, shows galaxy cluster SMACS 0723, captured by the James Webb Space Telescope. Diamond-like stars dazzle in the foreground​, and there are galaxies warped like pizza dough thrown in the air​, plus faint red smudges ​so distant their light ​may have been emitted ​more than​ 13 billion years ago.

“It’s fun to be able to see these baby pictures of the universe,” says Brant Robertson, who leads the Computational Astrophysics Research Group at the University of California, Santa Cruz, and who is involved in several major programs using the JWST to study galaxies in the early universe. “But it’s not just a picture. The key to unlocking that initial story, to be able to write the first pages of cosmic history for galaxy formation, is really being able to find these distant objects. The JWST can do that.”

Astronomers around the world are furiously digging into the first batch of data from the JWST released along with the images. The findings that they publish over the next few months could fundamentally shift how we understand our universe. But it is the photos themselves that can inspire imaginative speculation and drive humanity’s endeavors to understand the deepest reaches of the cosmos. 

“People wonder what makes a good astronomer,” Dr. Robertson says. Is it that you have a mind for math, or perhaps are drawn to physics? “Honestly, I think it’s a good imagination. You have to try to envision what the universe was like, at vast distances, in environments that are completely different than how the sun and the Earth or the Milky Way is. How can you put your mind into a place that you’ve never seen before? That’s why these pictures are so important to astronomers.”

That’s exactly how Jacqueline Faherty found her way to becoming an astrophysicist. Now senior education manager and a senior astrophysicist at the American Museum of Natural History in New York, she credits an early encounter with a cosmic photo for setting her on her professional path.

When Dr. Faherty was 18, she saw an image taken by the Hubble Space Telescope of supermassive star Eta Carinae. The photo shows gas and dust clouds billowing out from the eruptive star system. At the time, she remembers thinking to herself, “‘Wait a second. That’s out there? What is that? I want to do that. I’m going to figure this out.’ And I never looked back.” 

NASA/ESA/CSA/STScI/Webb ERO Production Team/Reuters

An observation of a planetary nebula from the MIRI instrument in the mid-infrared from NASA's James Webb Space Telescope, a revolutionary apparatus designed to peer through the cosmos to the dawn of the universe, released July 12, 2022.

Now, Dr. Faherty is preparing to make her own observations using the new space telescope. She studies the coldest objects that emerge from the star formation process, and is going to be turning the JWST’s infrared detectors toward those weird worlds to examine the content of their atmospheres, among other details. It’s possible, Dr. Faherty says, that the JWST could reveal clues as to whether extraterrestrial life might exist on one of those cold, cold worlds. 

Tracking infrared light

The JWST was designed to be able to look at the coldest – and at the oldest – things in the universe. Astronomers largely detect celestial objects from the radiation they emit, with telescopes tuned to pick up signals at specific wavelengths. Hotter objects tend to emit radiation with shorter wavelengths, such as ultraviolet light, while cooler objects emit infrared light, which is not visible to the human eye. 

Objects farther away from us also tend to appear in the infrared, as the distance causes their light’s wavelength to shift to be longer. And, as the universe is expanding, the farthest objects that we can see are also the oldest, with their light taking billions of years to reach the JWST’s detectors.

“That was what we built the telescope to do,” said Jane Rigby, operations project scientist for the JWST and an astrophysicist in the Observational Cosmology Lab at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. The first JWST image NASA revealed, which contains galaxy cluster SMACS 0723, looks deep into the universe. In it, there are galaxies a few billion years old in the foreground and faint red ones “littered like jewels” in the background appearing to us as they did 13 billion years ago.

The new JWST images didn’t just reveal a detailed first look at the early days of the universe, however. The new space telescope also turned its infrared “eyes” on objects closer to our corner of the cosmos to illuminate details that were hidden to astronomers previously looking at other wavelengths, revealing a new layer of the cosmos to humanity.

Images that show the advance from Hubble

The Hubble Space Telescope, which began its tenure 32 years ago, focused largely on the optical wavelengths of light. Dubbed “the people’s telescope,” Hubble brought images of the cosmos into popular culture and sparked curiosity in many, like Dr. Faherty. One of the most famous images snapped by Hubble was of the ‘Cosmic Cliffs’ of the Carina Nebula, which is roughly 7,600 light-years away from us. (Eta Carina is also in this nebula.) The hazy glow of gas and dust that make up the nebula are stark against a milky sky dotted with the sparkle of stars in the iconic Hubble image. But the JWST’s shot of the ‘Cosmic Cliffs’ is not hazy. The edges of the nebula are crisp, many more glittering stars appear, and the gas and dust of this stellar nursery appears to have distinct mountains and valleys. 

The JWST also captured a new view of a dying star system when observations in both the near-infrared and the mid-infrared ranges revealed details about the two stars locked in a tight dance in the Southern Ring Nebula, which sits about 2,500 light-years away. 

NASA/ESA/CSA/STScI/AP

This image provided by NASA on July 12, 2022, shows Stephan's Quintet, a visual grouping of five galaxies captured by the Webb Telescope's Mid-Infrared Instrument (MIRI).

In a galaxy group called “Stephan’s Quintet,” the JWST captured the glowing red merger of two of the five galaxies. The space telescope also unveiled the signature of an active black hole at the heart of one of the galaxies, which offers scientists a chance to study how supermassive black holes consume the material around them in detail. 

Water on an exoplanet

The four images were not all that was revealed from the JWST’s initial discoveries this week. NASA also announced that the space telescope captured the signature of water in the atmosphere of a giant exoplanet called WASP-96 b, which is roughly 1,150 light-years away from Earth. Scientists also found evidence that there are clouds and haze in that world’s atmosphere, demonstrating the space telescope’s ability to peer into the chemistry of exoplanets in the quest to find other habitable worlds.

The JWST isn’t the first space telescope to peer at the infrared. The Spitzer Space Telescope, which ended operations in 2020, also looked at that wavelength. While it was “the little engine that could, and did an enormous amount in infrared astronomy,” Dr. Faherty says, the JWST has a much better resolution than Spitzer to reveal details of objects that were previously invisible in the deepest parts of the universe.

Bill Ingalls/NASA/AP

NASA James Webb Space Telescope Deputy Project Scientist for Communications Amber Straughn speaks about the infrared image of the star-forming region called NGC 3324 in the Carina Nebula as it is shown on a screen during a broadcast releasing the telescope's first full-color images, July 12, 2022, at NASA's Goddard Space Flight Center in Greenbelt, Maryland.

Astronomers are already poring over the data and images, Dr. Robertson says. They’re using the images not just for inspiration, but as a tool to contextualize and confirm discoveries they’re making in the data. 

Roles for citizens

Dr. Robertson himself has uploaded the images in a format that people can zoom in and interact with, and he invites anyone of any scientific or non-scientific background to explore them. The majority of the raw data is also available online, and he hopes that “young astronomers throughout the world can make discoveries in these images.”

With the JWST looking at all depths of the universe and all kinds of different celestial objects, there are many discoveries to be made. Dr. Faherty has already been collaborating with citizen scientists in her proposals for time using the JWST through her citizen science project Backyard Worlds: Planet Nine. 

“If you get excited about JWST images, join a citizen science project,” she says, “Because people like me will find a project for you, and you might find something.” 

Already, JWST images are finding their way to viewers that might not ordinarily be interested in astronomy, Dr. Faherty adds. In the future, “kids may very well remember when they saw JWST imagery show up on Instagram or TikTok,” she says. “In the era of social media, these images become amplified big time.”

Astronomers say to expect a lot more from the JWST, and soon. 

“The amazing thing about Webb is the speed at which we can churn out discoveries,” Dr. Rigby said during the NASA broadcast. With Hubble, imaging the deep field took two weeks of continuous work, but “With Webb, we took that image before breakfast,” she said. Everything that was revealed this week took only about a week of observation time with the JWST, she said. “We’re going to be doing discoveries like this every week.”