The lonely work of picking the universe’s best astronomy pictures

After the image flashes up on the projector, a few quiet beats tick , punctuated only a soft “wow.” Everyone is processing.
Then more “wows” bubble out, and people are talking over one another, laughing. Suddenly two astronomers, Amaya Moro-Martin and Karl Gordon, are out of their chairs, sticking their noses closer to the space fantasia onscreen, agog — “It’s a jet! This is full of jets!” — at the crisp, hallucinatory grandeur of new stars sprouting from a nebula like seeds from a flower bed.
The screen zooms in, in, in toward a jutting promontory many light-years long that stands out in sharp relief.
“Oh my God,” someone says — only that someone was me, accidentally.
“Welcome to the team,” someone else responds.
A James Webb Space Telescope photo provided NASA shows the Carina Nebula, showing the earliest stages of star formation. (NASA via The New York Times)
On Tuesday morning, this view of the Carina Nebula was made public alongside other new observations from the James Webb Space Telescope. But it made an earlier debut on another Tuesday morning — this one in June, when a small team clutching coffee cups gathered around a conference table at the Space Telescope Science Institute in Baltimore for one of many morning meetings to receive, process and repackage for public consumption what humanity’s latest and greatest set of eyes could see — after the team members had first signed nondisclosure agreements to ensure no early leaks.
No one seemed to know quite how to describe this image. Some of it was unfamiliar even to the astronomers. “This little arch thing — I don’t understand,” Gordon mused, pointing.

Maybe they could call that piece a banana, or a candy cane. And what about the rest of it? An otherworldly landscape, granting that there was no land, and that any actual worlds out there were smaller than individual pixels. Monument Valley beneath a starry sky. M rising off a mountain valley, in gusts larger than our solar system, coursing along tramlines of magnetic field. A coastline etched into the azure Caribbean. Or sand dunes. Or a billowing veil, with deeper, galaxy-studded space shining through.
Nestor Espinoza, an astronomer at the Space Telescope Science Institute in Baltimore, July 12, 2022. There is a lot more universe out there to see than there was before the James Webb Space Telescope launched, and there is so much more to explain. (Michael A. McCoy/The New York Times)
For six weeks, this group — a mix of astronomers, press officers and science communicators — raced to assemble an early highlight reel for the $10 billion space observatory, launched on Chrmas Day last year. It was to be a packet of first-glimpse visuals intended to tease the ultimate promise of a space mission more expensive than the entire Marvel Cinematic Universe (so far).
At the very last minute Monday, the day before the originally scheduled release, President Joe Biden upped the stakes even more introducing one of the images at the White House. “These images are going to remind the world that America can do big things,” he said.
Even reaching this point had taken decades of planning, threatened cancellations, delays upon delays, a pandemic and a round of harrowing reverse origami that was needed to unfold the telescope in deep space without breaking it. In Baltimore, this group’s task was a mix of on-the-fly science, public communication and brand management: Blow everyone’s mind, show policymakers what all those appropriations had paid for, and assure the rest of the scientific world that yes, some of the universe’s most elusive secrets might at long last be within reach.
An image from the James Webb Space Telescope is projected onto a screen during a presentation at the Space Telescope Science Institute in Baltimore as NASA unveils the images on Tuesday, July 12, 2022. People who manage the telescope and its science attended the parallel event in Baltimore to see the results of their work for the first time. (Michael A. McCoy/The New York Times)
The new telescope’s still-functioning predecessor, Hubble — now 32 years old, solidly in the millennial generation — had underscored the stakes. Hubble’s first-look images made it obvious that its mirror was flawed, angering Congress and turning the project into a punchline. But after successful repairs, scients working on Hubble went on to crank out jaw-dropping, proto-viral photos of galaxies and nebulae like the “Pillars of Creation,” inspiring countless careers in the sciences. (Mine included: Before becoming a science journal, I spent two years as a data analyst for Hubble, which is also run out of the Space Telescope Science Institute.)

But James Webb is another beast altogether, so dinctive and advanced in its capabilities that even veteran astronomers had little idea what to expect of the images it would yield. Much of that is because the Webb operates in infrared wavelengths. At these frequencies, inaccessible to human eyes, clouds that look solid to Hubble dissolve into wisps of cirrus, dant galaxies grow brighter, new details rise out from the black, and space itself is set aglow the light of organic molecules coughed out in the last gasps of dying stars.
Simply showing off this stuff would demand a dinct color palette and style. NASA wanted to start pushing out the first images within six weeks of the telescope’s coming online. And while staring into the ass of the cosmic sublime for weeks on end would have its perks, the cone of silence around the project could also prove lonely.
In early June, for example, Klaus Pontoppidan, the astronomer leading this early release team, was the first human to download the new telescope’s full “deep field” view. This long, probing look at dant galaxies peers further back toward the start of time and the edge of space than any instrument of humanity has ever managed. “I was sitting there, staring at it for two hours, and then desperately, desperately wanting to share it with someone,” he said. “But I couldn’t.”
SPACE EXPLORATION IS NEVER just about space. Stories matter, too. And they’re often told imagery — whether an above-the-fold print, a slickly produced livestream or a Netflix special. This tradition stretches at least as far back as the 1960s, when none other than James Webb, an early NASA adminrator whose name would grace the new telescope, embraced art and visual communication as a key part of justifying the Apollo Program.
A photo provided NASA shows NASA Adminrator James Webb circa 1962-1963. Astronomers have pushed NASA to take the name of Webb off the agency’s space telescope, saying he was involved in homophobic incidents. (NASA via The New York Times)
“He actually came from the State Department, where he was very well versed in ‘hearts and minds’ campaigns,” said Lois Rosson, a horian of science at the University of Southern California. While Webb was its second-ranking official, the State Department embarked on a purge of gay employees, leading to emphatic calls for NASA to rename the telescope that have gone unheeded.
During the Apollo era, she says, NASA flooded the public domain with views of both the astronauts themselves and photographs taken the astronauts. One goal was bottling wonder. On Chrmas Eve in 1968, the crew of Apollo 8 snapped a famous shot, “Earthrise,” a touchstone for the early environmental movement that reveals our world as just a fragile blue crescent above the lunar surface. Just days later, Time and Life magazines ran the photo alongside poetry, and when the U.S. Postal Service reprinted it on a stamp, it kept a matching quote: the first words of Genesis, which the astronauts had read back to leners on Earth as they circled the moon.
Workers react as an image from the James Webb Space Telescope is shown on a monitor during a presentation at the Space Telescope Science Institute in Baltimore as NASA unveils the images on Tuesday, July 12, 2022. People who manage the telescope and its science attended the parallel event in Baltimore to see the results of their work for the first time. (Michael A. McCoy/The New York Times)
In the decades after Apollo funding evaporated, a new visual culture emerged from NASA missions connected to the Jet Propulsion Lab in California and a cohort of Hollywood-adjacent scients like Carl Sagan. They promoted a new rationale for wandering into the expanse for the sake of intellectual curiosity, not just to beat the Russians. The news media and politicians were invited to galas to see eagerly anticipated first glimpses of other planets, beamed back like postcards from sightseeing drives through the solar system. In this era, at the inception of digital imagery, engineers on missions like Voyager often experimented with combining multi-wavelength data into pictures with ultra-vivid hues, said Elizabeth Kessler, a horian of visual culture at Stanford. “They just look like throbbing, shifting, morphing, psychedelic colors,” she said.

The next leap came with Hubble in the mid-1990s, after a constellation of innovations: the unprecedented eagle-eyed vision of the repaired telescope itself, much faster tools for digital processing and a nascent internet to send memorable images burning into retinas around the globe. Engineers and image processors also adopted new conventions that have recurred in fictional and real-world depictions of the cosmos ever since.
Astronomer Karl Gordon, at the Space Telescope Science Institute in Baltimore, on July 12, 2022. In June, specials gathered in Baltimore to select images from the James Webb Space Telescope to share with the public; keeping the results to themselves hasn’t been easy. (Michael A. McCoy/The New York Times)
One concerns composition. Space is directionless, but many of the most famous Hubble photographs place solid-seeming surfaces at the bottom of the frame, vaguely geologic structures rising up, and then empty horizons above. This visual style, Kessler argues, invokes landscapes that are at once traversable in theory and staggeringly vast, following a dinctly American graphic language burrowed deep in our collective psyches. Think 19th-century paintings from surveys of the Western frontier, the photography of Ansel Adams, background scenery in countless Westerns — or El Capitan, from Yosemite National Park, looming in the desktop background of a Mac computer.

In parallel, image processors working with Hubble data adopted a color palette that soon came to dominate the wider world of deep cosmic photography. This system, still widespread today, follows a rule called chromatic ordering that echoes the way our visual systems perceive short wavelengths of light as blue, longer wavelengths as green, and the longest wavelengths we can see as red.
Astronomer Amaya Moro-Martin, at the Space Telescope Science Institute in Baltimore, on July 12, 2022. In June, specials gathered in Baltimore to select images from the James Webb Space Telescope to share with the public; keeping the results to themselves hasn’t been easy. (Michael A. McCoy/The New York Times)
The Hubble color palette isn’t fussy about matching an exact wavelength that the telescope saw to the exact color it would appear as in human eyes. For example, what looks blue in a digital space va might appear more green if you were looking out of the viewport of a passing spaceship. But this chromatic ordering rule still stays intact. The shortest wavelengths in an image are nearly always rendered in blue, the longest ones in red, and so on.
The resulting images are a balancing act between naturalism and what it might look like to see this scene with superhuman senses — reasonably realic, but richer in information about the sizzling plasmas and colder clouds that produce these light shows in the first place.

The Webb mission, run out of the very same drab office building at Johns Hopkins University as Hubble, continues in the same vein — especially the use of chromatic ordering, which also works to squeeze sensible color information out of infrared wavelengths that human eyes could never see to begin with. Before coloring in the cosmos, though, astronomers had to come up with what to do right after the most powerful set of eyes ever produced had fluttered open for the first time.
In an undated image provided NASA, ESA, CSA, and STScI, the Southern Ring nebula in mid-infrared, left, and near-infrared. There is a lot more universe out there to see than there was before the James Webb Space Telescope launched, and there is so much more to explain. (NASA, ESA, CSA, and STScI via The New York Times)
In 2016, a committee of representatives from the Space Telescope Science Institute, NASA and the European and Canadian space agencies convened to start choosing Webb’s very first demo targets. They checked off boxes that vibed with the telescope’s scientific goals: a deeper-than-ever deep field, galaxies pulsing in the void like jellyfish, a star with an attendant exoplanet, star-forming regions like the Carina Nebula and more. Ultimately, this process nominated around 70 possible targets.
Once the telescope had begun operating this winter, they whittled this l down to regions of the sky it could point to within the six-week time limit — plus a few held in reserve, to tease out in the next few months as the telescope’s scientific pursuits cranked into gear.
And then, finally, finally, the earliest results started trickling in through the bottleneck of Pontoppidan’s computer in early June, his being the only Webb user account granted access in this hush-hush phase of observation. From there, the team digitally combined raw frames into deeper, more polished exposures and then passed them on to image processors for color rendering.
In an undated image provided NASA, ESA, CSA, and STScI, Stephan’s Quintet captured the James Webb Space Telescope and released on Tuesday, July 12, 2022. There is a lot more universe out there to see than there was before the Webb telescope launched, and there is so much more to explain. (NASA, ESA, CSA, and STScI via The New York Times)
“I just felt overwhelmed,” said Joe Depasquale, the lead image processor on the project, describing what it had felt like to see one scene of another star-forming nebula come together — something with a more Carvaggio-esque, light-and-shadow effect that wasn’t included in the initial batch of releases. “This is going to blow people’s minds,” he said. (Confirmed.)
Already, he said, a few visual signatures have emerged. Stars in Webb images have six points, unlike the four spikes common in most space photography, a quirk that emerges from the quantum mumbo-jumbo of how incoming photons lap against this telescope’s structure and are then gathered up its hexagonal mirrors.
In particular wavelengths, he added, clouds that would otherwise look diffuse seem to have hard soap-bubble surfaces, skins of interstellar gas that are absorbing ultraviolet light from near stars and shining it back into space as infrared radiation.
And in the mid-infrared, when space itself looks afire because of glowing molecules called polycyclic aromatic hydrocarbons that are produced aging stars, colors again get wonky. “We end up having psychedelic purple clouds,” Depasquale said.
Will anything land as hard as the Apollo shots? Or the Hubble pics, plastered on science classroom walls and aped everyone from Terrence Malick to the “Thor” movies? We’ll see. But for now, at least, the tap is open, and the universe is pouring in.
After half an hour of focus on the Carina Nebula image, the participants in the early June meeting shifted their attentions to another observation that was also held back from Tuesday’s initial releases. Nestor Espinoza, an astronomer at the institute, is showing off a crisp new graph — trust me, still charismatic — of a gas giant planet crossing in front of not just a star, but a sunspot on that star.
Moro-Martin, having only recently sat down from gaping at the Carina Nebula, thinks she might be looking at a simulation. “Is this the real one?” she asked. Espinoza confirmed, and she gasped, sending the room into another round of giggles.
This article originally appeared in The New York Times.