PediatricDigest

PediatricDigest

Sunday, 3 December 2023

[New post] Ghostlike dusty galaxy reappears in James Webb Space Telescope image

Site logo image University of Texas posted: "It first appeared as a glowing blob from ground-based telescopes and then vanished completely in images from the Hubble Space Telescope. Now, the ghostly object has reappeared as a faint, yet distinct galaxy in an image from the James Webb Space Telescope" ScienceBlog.com

Ghostlike dusty galaxy reappears in James Webb Space Telescope image

University of Texas

Dec 3

It first appeared as a glowing blob from ground-based telescopes and then vanished completely in images from the Hubble Space Telescope. Now, the ghostly object has reappeared as a faint, yet distinct galaxy in an image from the James Webb Space Telescope (JWST).

Astronomers with the COSMOS-Web collaboration have identified the object AzTECC71 as a dusty star-forming galaxy. Or, in other words, a galaxy that's busy forming many new stars but is shrouded in a dusty veil that's hard to see through — from nearly 1 billion years after the Big Bang. These galaxies were once thought to be extremely rare in the early universe, but this discovery, plus more than a dozen additional candidates in the first half of COSMOS-Web data that have yet to be described in the scientific literature, suggests they might be three to 10 times as common as expected.

"This thing is a real monster," said Jed McKinney, a postdoctoral researcher at The University of Texas at Austin. "Even though it looks like a little blob, it's actually forming hundreds of new stars every year. And the fact that even something that extreme is barely visible in the most sensitive imaging from our newest telescope is so exciting to me. It's potentially telling us there's a whole population of galaxies that have been hiding from us."

If that conclusion is confirmed, it suggests the early universe was much dustier than previously thought.

The team published its findings in The Astrophysical Journal.

The COSMOS-Web project — the largest initial JWST research initiative, co-led by Caitlin Casey, an associate professor at UT Austin — aims to map up to 1 million galaxies from a part of the sky the size of three full moons. The goal in part is to study the earliest structures of the universe. The team of more than 50 researchers was awarded 250 hours of observing time in JWST's first year and received a first batch of data in December 2022, with more coming in through January 2024.

A dusty star-forming galaxy is hard to see in optical light because much of the light from its stars is absorbed by a veil of dust and then re-emitted at redder (or longer) wavelengths. Before JWST, astronomers sometimes referred to them as "Hubble-dark galaxies," in reference to the previously most-sensitive space telescope.

"Until now, the only way we've been able to see galaxies in the early universe is from an optical perspective with Hubble," McKinney said. "That means our understanding of the history of galaxy evolution is biased because we're only seeing the unobscured, less dusty galaxies."

This galaxy, AzTECC71, was first detected as an indistinct blob of dust emission by a camera on the James Clerk Maxwell Telescope in Hawaii that sees in wavelengths between far infrared and microwave. The COSMOS-Web team next spotted the object in data collected by another team using the ALMA telescope in Chile, which has higher spatial resolution and can see in infrared. That allowed them to narrow down the location of the source. When they looked in the JWST data in the infrared at a wavelength of 4.44 microns, they found a faint galaxy in exactly the same place. In shorter wavelengths of light, below 2.7 microns, it was invisible.

Now, the team is working to uncover more of these JWST-faint galaxies.

"With JWST, we can study for the first time the optical and infrared properties of this heavily dust-obscured, hidden population of galaxies," McKinney said, "because it's so sensitive that not only can it stare back into the farthest reaches of the universe, but it can also pierce the thickest of dusty veils."

The team estimates that the galaxy is being viewed at a redshift of about 6, which translates to about 900 million years after the Big Bang.

Study authors from UT Austin are McKinney, Casey, Olivia Cooper (a National Science Foundation graduate research fellow), Arianna Long (a NASA Hubble fellow), Hollis Akins and Maximilien Franco.

Support was provided by NASA through a grant from the Space Telescope Science Institute.


Manage your email settings or unsubscribe.

Trouble clicking? Copy and paste this URL into your browser:
https://scienceblog.com/540734/ghostlike-dusty-galaxy-reappears-in-james-webb-space-telescope-image/

WordPress.com and Jetpack Logos

Get the Jetpack app to use Reader anywhere, anytime

Follow your favorite sites, save posts to read later, and get real-time notifications for likes and comments.

Download Jetpack on Google Play Download Jetpack from the App Store
WordPress.com on Twitter WordPress.com on Facebook WordPress.com on Instagram WordPress.com on YouTube
WordPress.com Logo and Wordmark title=

Automattic, Inc. - 60 29th St. #343, San Francisco, CA 94110  

at December 03, 2023
Email ThisBlogThis!Share to XShare to FacebookShare to Pinterest

No comments:

Post a Comment

Newer Post Older Post Home
Subscribe to: Post Comments (Atom)

Latest from Food Politics: Weekend viewing: The National Food Museum

I am on the advisory council to the National Food Museum, an online project created by Michael Jacobson, the now-retired founder and presi...

  • PowKids Clean Protein: Raising Powerful Kids!
    Photo courtesy of PowKids! I received samples of Powkids protein ($79.98 valu...
  • Latest from Food Politics: Weekend reading: Flagstaff anti-hunger efforts
    In September 2025, I was invited by the Flagstaff Family Food Center to give a talk on “Anti-Hunger Politics 2025: Planting Seeds for Resi...
  • Does Lauren Boebert have her GOP primary locked up — or will a lesser-known candidate break out?
    Money. Incumbency. Near-universal name recognition.U.S. Rep. Lauren Boebert [cq ...

Search This Blog

  • Home

About Me

PodiatryDigest
View my complete profile

Report Abuse

Blog Archive

  • July 2026 (3)
  • June 2026 (32)
  • May 2026 (31)
  • April 2026 (31)
  • March 2026 (31)
  • February 2026 (29)
  • January 2026 (29)
  • December 2025 (32)
  • November 2025 (29)
  • October 2025 (33)
  • September 2025 (33)
  • August 2025 (36)
  • July 2025 (40)
  • June 2025 (24)
  • May 2025 (17)
  • April 2025 (16)
  • March 2025 (16)
  • February 2025 (11)
  • January 2025 (6)
  • December 2024 (8)
  • November 2024 (8)
  • October 2024 (8)
  • September 2024 (1481)
  • August 2024 (1712)
  • July 2024 (2057)
  • June 2024 (2105)
  • May 2024 (2319)
  • April 2024 (2069)
  • March 2024 (2286)
  • February 2024 (2422)
  • January 2024 (2539)
  • December 2023 (1955)
  • November 2023 (1449)
  • October 2023 (1186)
  • September 2023 (1072)
  • August 2023 (826)
  • July 2023 (771)
  • June 2023 (793)
  • May 2023 (829)
  • April 2023 (707)
  • March 2023 (753)
  • February 2023 (673)
  • January 2023 (752)
  • December 2022 (706)
  • November 2022 (731)
  • October 2022 (701)
  • September 2022 (694)
  • August 2022 (716)
  • July 2022 (752)
  • June 2022 (845)
  • May 2022 (1011)
  • April 2022 (1138)
  • March 2022 (596)
  • February 2022 (423)
  • January 2022 (449)
  • December 2021 (581)
  • November 2021 (1495)
  • October 2021 (1539)
  • September 2021 (1455)
  • August 2021 (196)
Powered by Blogger.