# JWST's Ancient Giant Galaxy: No Spin, Milky Way x Stars?

## Summary
JWST has uncovered XMM-VID1-2075, a massive slow-rotating galaxy from 12 billion years ago with several times more stars than the Milky Way. Unlike fast-spinning early galaxies, it shows chaotic stellar motion typical of mature slow rotators, no longer forming stars. Dr. Ben Forrest suggests a single high-energy collision caused this, evidenced by unusual light patterns, challenging standard evolution models.

## Content
JWST Reveals Slow-Rotating Massive Galaxy from Early Universe, Challenging Galaxy Evolution Models

The James Webb Space Telescope (JWST) has discovered a slow-rotating galaxy, XMM-VID1-2075, from the early universe, located at a redshift corresponding to roughly 12 billion years ago when the universe was still under 2 billion years old. This massive galaxy challenges astronomers' understanding of galaxy evolution in their infancy.

Astronomers previously believed that early universe galaxies rotated at high speeds, gradually losing rotation over time through mergers. However, XMM-VID1-2075 shows an advanced state of evolution without the typical organized rotational movement seen in most large galaxies today.


            
              
              
                Visualization of slow rotator dynamics in ancient galaxies  (Credit: Lucas Pilon Ferro via Pexels)
              
            

A New Kind of Galaxy

Most large galaxies today are held together by organized rotation, but "slow rotators" have stars moving in random, chaotic directions. These are typically no longer forming stars and are rare in the local universe.

Dr. Ben Forrest, an astronomer at the University of California, Davis, noted:


“That’s something only seen in the most massive, mature galaxies that are closer to us in space and time,” he said. “This one in particular did not show any evidence of rotation, which was surprising and very interesting.”


Dr. Ben Forrest, UC Davis



Galaxy XMM-VID1-2075. Credit: Nature Astronomy


XMM-VID1-2075 is one of the most massive galaxies from the early universe, with several times as many stars as the Milky Way. Its lack of rotational movement is a characteristic typically associated with older, more evolved galaxies.

Observation with JWST

This discovery, published in Nature Astronomy, was enabled by JWST's infrared capabilities to observe faint, distant objects. Redshift shifts the light to longer wavelengths due to the universe's expansion, allowing views of the galaxy as it appeared 12 billion years ago. Such observations build on advanced space telescope technologies.

Dr. Forrest explained that prior MAGAZ3NE observations confirmed its massive size and lack of star formation, making it a compelling target:


“Previous MAGAZ3NE observations had confirmed this was one of the most massive galaxies in the early Universe, with already several times as many stars as our Milky Way, and also confirmed that it was no longer forming new stars, making it a compelling target for follow-up observations.”



            
              
              
                JWST spectrum revealing galaxy dynamics  (Credit: Pixabay via Pexels)
              
            



Spectrum and spatial map of the galaxy XMM-VID1-2075 observed by the James Webb Space Telescope. Credit: Nature Astronomy


Unlike today's galaxies with orderly movements, XMM-VID1-2075 lacks the expected rotation for an early universe galaxy.

Explaining the Slow Rotation

Slow rotators in the nearby universe result from mergers that disrupt rotational motion. For XMM-VID1-2075, Dr. Forrest suggests a single high-energy collision between two galaxies moving in opposite directions, rather than multiple mergers. This aligns with JWST's ongoing deep field studies.


“For this particular galaxy, we see a large excess of light off to the side. And so that’s suggestive of some other object which has come in and is interacting with the system and potentially changing its dynamics.”


UC Davis statement


            
              
              
                Galaxy merger disrupting ordered rotation  (Credit: Jens Mahnke via Pexels)
              
            



XMM-VID1-2075 (left) lacks color variation, suggesting no rotation, in contrast to the rotating galaxies on the right. Credit: Nature Astronomy


The galaxy's unusual light patterns indicate an external perturbation affecting its dynamics, potentially explaining its lack of rotation without relying on gradual mergers.


            
              
              
                Color-coded rotation signatures in galaxies  (Credit: Jens Mahnke via Pexels)
              
            

References:

Dr. Ben Forrest, UC Davis
Nature Astronomy
UC Davis statement
NASA JWST Mission
JWST Official Site
ESA Webb Telescope
Sources:Original Source

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Source: Kodawire (EN)