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Peer Into The Universe's Distant Past Thanks To JWST's Longest-Exposure Photo Yet

Do you want to see some of the oldest starlight in the cosmos?

Dr. Alfredo Carpineti headshot

Dr. Alfredo Carpineti

Dr. Alfredo Carpineti headshot

Dr. Alfredo Carpineti

Senior Staff Writer & Space Correspondent

Alfredo (he/him) has a PhD in Astrophysics on galaxy evolution and a Master's in Quantum Fields and Fundamental Forces.

Senior Staff Writer & Space Correspondent

EditedbyLaura Simmons
Laura Simmons headshot

Laura Simmons

Health & Medicine Editor

Laura is an editor and staff writer at IFLScience. She obtained her Master's in Experimental Neuroscience from Imperial College London.

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A field of galaxies in space, dominated by an enormous, bright-white elliptical galaxy that is the core of a massive galaxy cluster. Many other elliptical galaxies can be seen around it. Also around it are short, curved, glowing red lines, which are images of distant background galaxies magnified and warped by gravitational lensing. A couple of foreground stars appear large and bright with long spikes around them.

Even a portion of this image is spectacular!

Image credit: ESA/Webb, NASA & CSA, H. Atek, M. Zamani (ESA/Webb)

This is the universe like you have never seen before. Thanks to the extraordinary sharpness of JWST, many hours of work, and the warping of spacetime by a massive galaxy cluster, we have some of the oldest starlight that has ever been seen in the universe.

The image took nine snapshots and 120 hours of observing time; it is currently the longest exposure yet from JWST. As the image description points out, the eye focuses on the central mass. That’s galaxy cluster Abell S1063, located 4.5 billion light-years from Earth and appearing in the constellation Grus, the Crane.

The cluster is massive, weighing a trillion times the mass of our Sun, with over 50 confirmed galaxies and maybe hundreds of smaller ones. It’s so massive and dense that its gravity has bent the surrounding spacetime, which now acts like a magnifying lens, distorting the light of background objects.

A field of galaxies in space, dominated by an enormous, bright-white elliptical galaxy that is the core of a massive galaxy cluster. Many other elliptical galaxies can be seen around it. Also around it are short, curved, glowing red lines, which are images of distant background galaxies magnified and warped by gravitational lensing. A couple of foreground stars appear large and bright with long spikes around them.
The arcs are the thing!
Image credit: ESA/Webb, NASA & CSA, H. Atek, M. Zamani (ESA/Webb)

And this is where the uniqueness of the image lies. Streaks and arcs of red that appear around the cluster like ripples in a disturbed pond are what we are looking for. These are light from some incredibly distant galaxies, made of starlight from some of the first stars that ever shone. The very first stars? We do not know that yet. The GLIMPSE team, who conducted these observations, will have to work out just how old these objects are.  

This is why gravitational lensing is special. It allows astronomers to look further back into the universe than with a telescope alone. JWST has already found some of the most distant galaxies that ever existed, whose light had to travel for 98 percent of the age of the universe to reach us.

With gravitational lensing, researchers can see dimmer galaxies at the same distance or see brighter galaxies that are farther away. After all, looking back into the universe is like looking back in time due to the finiteness of the speed of light.

The GLIMPSE survey aims to probe the period known as the Cosmic Dawn, when the universe was only a few million years old, and the very first stars – the yet unobserved Population III – shone. It is a challenging observation goal, but the breathtaking image alone would make it worth it. Imagine when we get insight into some of the most distant galaxies that ever existed!


ARTICLE POSTED IN

space-iconSpace and Physics
  • tag
  • gravitational lensing,

  • early universe,

  • JWST,

  • cosmic dawn,

  • JWST Deep Field

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