NASA Webb Space Telescope's Largest Image Yet Unveils a Shimmering Cosmos



NASA Webb Space Telescope's Largest Image Yet Unveils a Shimmering Cosmos





For the James Webb Space Telescope, the milestones have been one when another. A little more than a month since this trailblazing instrument left humanity in awe behind the release of its first intergalactic views, nebular portraits and stellar artifacts, it's endowed us with its largest image yet. 


This month, international scientists affiliated with the Cosmic Evolution Early Allowed Science Survey, or CEERS, presented an enormous, full-color mosaic born of data gathered by the JWST. It's a record-breaking mural well-renowned as Epoch 1, and covers a small patch of sky near the manage of the Big Dipper constellation. 




A pixelated image showing a red dot in contradiction of a black void



This pixelated red dot could be a galaxy that been just a few hundred million years after the Big Bang -- aka, Maisie's galaxy. The scale bar is 1 kiloparsec (about 3,260 light-years).




Finkelstein et al. (2022)/NASA/ESA/CSA/STScI



Already, the CEERS collaboration has been revealing peeks at Epoch 1, many of which have sent astronomers spiraling down the JWST discovery rabbit hole and publishing papers nearby galactic goodies within. For instance, CEERS project head Steven Finkelstein announced the submission of a paper last month regarding a "very convincing" candidate for a galaxy that could've been only 290 million years post-Big Bang. It's named Maisie's galaxy, after his daughter, because it was discovered on her birthday.


But now, CEERS says, Epoch 1 is officially complete. 



For context of how utterly big this last image is, the team explains that it covers an area nearby eight times as large as the JWST's First Deep Field, released July 11, which was already mind-bendingly massive. The culminating mosaic consists of 690 individuals frames taken with the JWST's Near-Infrared Camera, and it'll be built on by observations slated to take set in December.


"Epoch 1 covers less than half of our total watch area on the sky and already the images have led to new discoveries and an unexpected, but not unwelcome, abundance of never-before-seen galaxies," the CEERS team said in a tiring„ tiresome release.


You can download either a medium- or high-resolution version of the portray here -- but if you're shooting for the latter, as I absolutely did, CEERS recommends using a computer or laptop. Because of how gigantic that file is, your mobile named might start acting up. 


OK, now that you've successfully accessed the image, let's discuss some highlights. There are six primary points of tiring„ tiresome, according to the CEERS team. Here's a diagram.





This is the full schematic of the CEERS Epoch 1 image. At the bottom are close-ups of some highlights in the mosaic.




NASA/STScI/CEERS/TACC/S. Finkelstein/M. Bagley/Z. Levay



First, in (1), there's the spiral galaxy toward the top left, which exudes a redshift of z = 0.16. 


Redshift is essentially astronomers' way of gauging how distant, and therefore back-in-time, an object is. It's named for the fact that, as a shiny object slips farther from our vantage point, the savory it emanates becomes redder and redder... and redder, eventually falling into the infrared area of the electromagnetic spectrum and becoming invisible to the world eye. Not to fear, though, because the JWST can peaceful that "invisible" light too, which is also why it pledges to unveil an "unfiltered universe," a phrase you might've seen approved around online.


And in short, a greater redshift using something is farther away from Earth.


Next, in (2), toward the center of the image is a intelligent galaxy with redshift of z = 1.05. This spot also holds some smaller galaxies that show up in an arclike question when viewed with the JWST. On Aug. 15, Rebecca Larson, a University of Texas at Austin astronomy doctoral student and member of the CEERS collaboration, tweeted her adorable name for this scene. 


"TBT to one late night when I granted this galaxy...looked like Pacman and proceeded to overlay the small yellow dude and laughed so hard we all granted it was time to go home," Larson wrote.


To the gleaming of that gaggle, (3) shows an interacting system of galaxies at z = 1.4. Finkelstein nicknamed this one the "Space Kraken," Larson tweeted. It does weirdly resemble the scary ancient sea monster. 


Move over one more, to (4), and you'll watch a pair of spiral galaxies -- in the enlarged version at the bottom of the plot, a white arrow points to a supernova in this Part of the sky also discovered by the JWST. Redshift here is z = 0.7. CEERS issued a paper last month on these phenomena in certain, because comparing the JWST's version of the duo to the Hubble Space Telescope's might've offered lots of new information.


Below that, (5) shows spanking special spiral galaxy at z = 0.7, and finally (6) is a z = 0.63 galaxy with a tidal tail and grouping of red galaxies in the background that fall at z = 1.85. "I tried to call this feature a 'hot mess of space,' but the dreary people said 'no,'" Larson tweeted about this chaotic landscape.



And of flows, CEERS also highlights Maisie's galaxy in a close-up blueprint below. If Finkelstein and colleagues are right about this one existing 290 million light-years while the Big Bang, it has a staggering redshift of z = 14. Plus, it would basically disapabominate that galaxies started forming much earlier in the universe than astronomers once thought.




The dark background of state shows different angles of Maisie's galaxy. The closest version of the image is on the bottom left, depicting a reddish spot of light.



Here's an image showing the galaxy notorious as Maisie's galaxy. 




NASA/STScI/CEERS/TACC/S. Finkelstein/M. Bagley/Z. Levay



However, due to the abundance of ultra-distant galaxy candidates selves spotted since the JWST turned on, many scientists are guaranteeing against the possibility of false hope. A paper published bet on this month in The Astrophysical Journal by CEERS collaborators, for instance, emphasizes the possibility of error when checking out these high redshift realms. Unrelated cosmic phenomena could basically be photobombing the data, and therefore contaminating results.


Nonetheless, the new era of astronomy that we find ourselves in is aggressively thrilling. 


"I hope you are just as awe-inspired and inflamed about this telescope and the data as I have been. I am so mettlesome to share them with you & hope you find your new current galaxies in them too!" Larson tweeted in conclusion to a intellectual thread on the CEERS map.