Skip to main content

Astronomers discover a cosmic Yeti: A massive galaxy from the early universe

An artist’s impression of what a massive galaxy in the early universe might look like. The galaxy is undergoing an explosion of star formation, lighting up the gas surrounding the galaxy. Thick clouds of dust obscure most of the light, causing the galaxy to look dim and disorganized, very different from galaxies seen today. James Josephides/Christina Williams/Ivo Labbe

Astronomers have spotted evidence of a massive and ancient galaxy, so old and so large that they compared finding it to spotting a cosmic Yeti.

The Yeti hunt began when astronomer Christina Williams, a National Science Foundation postdoctoral fellow at the Steward Observatory, was looking through results from the Atacama Large Millimeter Array (ALMA) for another project. She spotted a strange blob of light that seemed to come from nowhere.

“It was very mysterious because the light seemed not to be linked to any known galaxy at all,” she said in a statement. “When I saw this galaxy was invisible at any other wavelength, I got really excited because it meant that it was probably really far away and hidden by clouds of dust.”

On further inspection, Williams and colleagues discovered they were looking at the remnants of a signal that took 12.5 billion years to reach Earth, meaning they were looking back at an event from the very early universe. The glow was formed as bright baby stars were born inside a young galaxy. Although giant clouds of dust obscured the galaxy itself, the glow of the stars illuminated the dust and lit it up.

The Yeti galaxy was extremely productive, creating stars nearly 100 times faster than our Milky Way. It could also offer the answer to the astronomical puzzle of why very large galaxies seem to mature so fast. Astronomers have seen massive mature galaxies, but they hadn’t seen massive galaxies growing before – it was as if they appeared fully formed.

“Our hidden monster galaxy has precisely the right ingredients to be that missing link,” Williams explains, “because they are probably a lot more common.”

The Abominable Galaxy

In order to learn more about how many massive mature galaxies may be out there, Williams and her team want to take observations from more parts of the night sky. Their first study covered only a very small sliver of the sky, and to find more monster galaxies they will need to search many more areas.

For this purpose, Williams is eagerly awaiting the launch of NASA’s James Webb Space Telescope (JWST) which will be able to see further and in greater detail than any telescope currently available. “JWST will be able to look through the dust veil so we can learn how big these galaxies really are and how fast they are growing,” she said, “to better understand why models fail in explaining them.”

The findings are published in the Astrophysical Journal.

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
Astronomers discover bizarre stretchy objects unlike anything else in our galaxy
Artist’s impression of G objects

Astronomers have discovered a mysterious new class of objects at the heart of the Milky Way, unlike anything else found previously in our galaxy. The objects "look like gas but behave like stars,” according to senior researcher Andrea Ghez, as they start off small and compact but are stretched to a larger size when they approach the supermassive black hole in the center of the galaxy.

The researchers believe these objects could teach us about the evolution of stars and what happens to celestial bodies in environments of extreme gravity.
What are these strange objects?
Artist’s impression of G objects, with the reddish centers, orbiting the supermassive black hole at the center of our galaxy. The black hole is represented as a dark sphere inside a white ring (above the middle of the rendering). Jack Ciurlo

Read more
Impending collision of Milky Way with other galaxy is already creating new stars
A map of the Milky Way.

A newfound cluster of young stars (blue star) sits on the periphery of the Milky Way. These stars probably formed from material originating from neighboring dwarf galaxies called the Magellanic Clouds. D. Nidever; NASA

We know that in around 2 billion years' time, our galaxy will collide with a nearby satellite galaxy, the Large Magellanic Cloud (LMC). This collision will be so dramatic that it will awaken the black hole at the heart of our galaxy, causing it to gorge on nearby matter and balloon to ten times its current size. The LMC is a fairly small galaxy, but it is rich in dark matter so it has a large mass, causing the collision between the two galaxies to be catastrophic.

Read more
Astronomers search tiny galaxies to understand the evolution of black holes
Artist's conception of a dwarf galaxy

Artist's conception of a dwarf galaxy, its shape distorted, most likely by a past interaction with another galaxy, and a massive black hole on its outskirts (pullout). The black hole is drawing in material that forms a rotating disk and generates jets of material propelled outward. Sophia Dagnello, NRAO/AUI/NSF

We know that at the heart of galaxies lie enormous supermassive black holes, although exactly how these black holes formed when the universe was young is a question scientists are still investigating. Now, astronomers have new clues to this conundrum with the discovery of 13 massive black holes in dwarf galaxies relatively nearby to Earth.

Read more