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EI2GYB > ASTRO 19.12.22 14:00l 56 Lines 5723 Bytes #999 (0) @ WW
BID : 8099_EI2GYB
Read: GUEST
Subj: Webb's Galactic Distance Record Is Now Official
Path: IW8PGT<IZ3LSV<IQ2LB<IR2UFV<EI2GYB
Sent: 221219/1141Z 8099@EI2GYB.DGL.IRL.EURO BPQ6.0.23
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Webb's Galactic Distance Record Is Now Official
By: Colin Stuart December 15, 2022
Spectroscopic measurements confirm Webb's distance record, with images revealing galaxies that existed just 330 million years after the Big Bang.
Astronomers using the James Webb Space Telescope (JWST) have confirmed the most distant galaxies ever observed. Some formed just 330 million years after the Big Bang, when the universe was a mere 2% of its current age.
These new results, based on highly detailed spectroscopic measurements, provide concrete distances to galaxies revealed in Webb observations back in August. "It was crucial to prove that these galaxies do, indeed, inhabit the early universe," says Emma Curtis-Lake (University of Hertfordshire, UK). "It's very possible for closer galaxies to masquerade as very distant galaxies."
Curtis-Lake is part of a group of 80 astronomers from 10 countries behind the JWST Advanced Deep Extragalactic Survey (JADES). They've been given a total of a month's observing time, spread over two years, to look at the spectra of distant galaxies. The first part of this effort saw them observe an area of the night sky in and around the famous Hubble Ultra Deep Field (HUDF). (The team is in the process of publishing this data; although the study has not yet passed peer review, NASA has made it available here.)
Spectra of distant galaxies have a distinct cut-off point called the Lyman break, caused by intergalactic hydrogen absorbing wavelengths shorter than 91.2 nanometers on its journey towards Earth. Yet the ongoing expansion of the universe stretches the wavelength of light from these galaxies in the early universe, which in turn shifts their Lyman break to longer wavelengths, too. The longer the wavelength at which a galaxy appears to drop off in brightness, the older and more distant it is.
The Lyman break can be seen in broadband images at multiple wavelengths, which is how astronomers first pinpointed these galaxies in August. However, galaxies may appear to "drop out" at shorter wavelengths for other reasons, such as veils of dust created by bursts of star formation. Spectroscopic measurements fill in the gaps, providing additional data that can confirm that a drop in brightness is indeed due to the galaxies' extreme distance.
The JADES team collected 28 hours of data on 250 different galaxies using Webb's Near Infrared Spectrograph (NIRSpec) instrument. They hit the jackpot with four of them. The location of their Lyman breaks suggest that they are all beyond redshift 10. Two of them have a redshift of 13, meaning they formed as early as 330 million years after the Big Bang.
These ancient galaxies form part of a newly released image of the HUDF area taken with Webb's Near Infrared Camera (NIRCam) using nine different wavelengths of infrared light. Blue in the image represents light at 1.15 microns, green is 2.0 microns, and red is 4.44 microns.
"To find these early galaxies in such stunningly beautiful images is a special experience," says team member Brant Robertson (University of California, Santa Cruz).
Studying these distant galaxies is a crucial part of working out how we arrived at the universe we see today. "It is hard to understand galaxies without understanding the initial periods of their development," says team member Sandro Tacchella (University of Cambridge, UK). "As with humans, so much of what happens later depends on the impact of these early generations of stars. So many questions about galaxies have been waiting for the transformative opportunity of Webb, and we're thrilled to be able to play a part in revealing this story."
Michael Strauss (Princeton University), who was not involved in the research, is excited to see the results. "It is completely amazing that we are measuring spectroscopic redshifts for galaxies at redshift of 13, looking back to the first few hundred million years of the universe's history," he says. "We're just starting to probe what is often called the 'Cosmic Dawn' with these observations, and who knows what the next year - much less the next 20 years - with JWST will teach us."
If this is the appetizer, we may not have to wait long for the next course. JADES will continue in 2023 with a detailed study of the Hubble Deep Field, before returning to the Ultra Deep Field for another round of imaging and spectroscopy. These new distance records could easily be broken as astronomers probe further and further into the universe's youth.
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