A team of international researchers have identified six candidate galaxies that existed roughly 500 to 700 million years after the Big Bang and are about as big as the modern Milky Way Galaxy -- a feat that scientists didn't think was possible.
From: University of Colorado at Boulder
February 22, 2023 -- In
a new study, an international team of astrophysicists has discovered several
mysterious objects hiding in images from the James Webb Space Telescope: six
potential galaxies that emerged so early in the universe’s history and are so
massive they should not be possible under current cosmological theory.
Each of the candidate
galaxies may have existed at the dawn of the universe roughly 500 to 700
million years after the Big Bang, or more than 13 billion years ago. They’re
also gigantic, containing almost as many stars as the modern-day Milky Way
Galaxy.
“It’s bananas,” said
Erica Nelson, co-author of the new research and assistant professor of
astrophysics at the University of Colorado Boulder. “You just don’t expect the
early universe to be able to organize itself that quickly. These galaxies
should not have had time to form.”
Nelson and her colleagues, including first author Ivo Labbé of the Swinburne
University of Technology in Australia, published their results Feb. 22 in the
journal Nature.
The latest finds aren’t
the earliest galaxies observed by James Webb, which launched in December 2021
and is the most powerful telescope ever sent into space. Last year, another
team of scientists spotted four galaxies that likely coalesced from gas around
350 million years after the Big Bang. Those objects, however, were downright
shrimpy compared to the new galaxies, containing many times less mass from
stars.
The researchers still
need more data to confirm that these galaxies are as big as they look, and date
as far back in time. Their preliminary observations, however, offer a
tantalizing taste of how James Webb could rewrite astronomy textbooks.
“Another possibility is
that these things are a different kind of weird object, such as faint quasars,
which would be just as interesting,” Nelson said.
Fuzzy dots
There’s a lot of
excitement going around: Last year, Nelson and her colleagues, who hail from
the United States, Australia, Denmark and Spain, formed an ad hoc team to
investigate the data James Webb was sending back to Earth.
Their recent findings
stem from the telescope’s Cosmic Evolution Early Release Science (CEERS)
Survey. These images look deep into a patch of sky close to the Big Dipper—a
relatively boring, at least at first glance, region of space that the Hubble
Space Telescope first observed in the 1990s.
Nelson was peering at a
postage stamp-sized section of one image when she spotted something strange: a
few “fuzzy dots” of light that looked way too bright to be real.
“They were so red and
so bright,” Nelson said. “We weren’t expecting to see them.”
She explained that in
astronomy, red light usually equals old light. The universe, Nelson said, has
been expanding since the dawn of time. As it expands, galaxies and other
celestial objects move farther apart, and the light they emit stretches out—think
of it like the cosmic equivalent of saltwater taffy. The more the light
stretches, the redder it looks to human instruments. (Light from objects coming
closer to Earth, in contrast, looks bluer).
The team ran
calculations and discovered that their old galaxies were also huge, harboring
tens to hundreds of billions of sun-sized stars worth of mass, on par with the
Milky Way.
These primordial
galaxies, however, probably didn’t have much in common with our own.
“The Milky Way
forms about one to two new star every year,” Nelson said. “Some of these
galaxies would have to be forming hundreds of new stars a year for the entire
history of the universe.”
Nelson and her
colleagues want to use James Webb to collect a lot more information about these
mysterious objects, but they’ve seen enough already to pique their curiosity.
For a start, calculations suggest there shouldn’t have been enough normal
matter—the kind that makes up planets and human bodies—at that time to form so
many stars so quickly.
“If even one of these
galaxies is real, it will push against the limits of our understanding of
cosmology,” Nelson said.
Seeing back in time
For Nelson, the new
findings are a culmination of a journey that began when she was in elementary
school. When she was 10, she wrote a report about Hubble, a telescope that
launched in 1990 and is still active today. Nelson was hooked.
“It takes time for
light to go from a galaxy to us, which means that you're looking back in time
when you're looking at these objects,” she said. “I found that concept so mind
blowing that I decided at that instant that this was what I wanted to do with
my life.”
The fast pace of
discovery with James Webb is a lot like those early days of Hubble, Nelson
said. At the time, many scientists believed that galaxies didn’t begin forming
until billions of years after the Big Bang. But researchers soon discovered
that the early universe was much more complex and exciting than they could have
imagined.
“Even though we learned
our lesson already from Hubble, we still didn’t expect James Webb to see such
mature galaxies existing so far back in time,” Nelson said. “I’m so excited.”
Other co-authors on the
new study include Pieter van Dokkum of Yale University; Katherine Suess of the
University of California, Santa Cruz; Joel Leja, Elijah Matthews and Bingjie
Wang of the Pennsylvania State University; Gabriel Brammer and Katherine
Whitaker of the University of Coppenhagen; and Mauro Stefanon of the University
of Valencia.
James
Webb spots super old, massive galaxies that shouldn't exist -- ScienceDaily
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