By analyzing new observations from NASA’s James Webb Space Telescope, a team led by Simon Lilly of ETH Zürich in Switzerland found evidence that galaxies that existed 900 million years after the big bang ionized the gas around them, causing it to become transparent. They also used Webb to precisely measure the gas around the galaxies, identifying that “bubbles” of ionized gas have a 2 million light-year radius around the tiny galaxies. Over the next hundred million years, the bubbles grew larger and larger, eventually merging and causing the entire universe to become transparent.
Credits: NASA, ESA, CSA, Simon
Lilly (ETH Zürich), Daichi Kashino (Nagoya University), Jorryt Matthee (ETH
Zürich), Christina Eilers (MIT), Rob Simcoe (MIT), Rongmon Bordoloi (NCSU),
Ruari Mackenzie (ETH Zürich); Image Processing: Alyssa Pagan (STScI) Ruari
Macken
In the early universe, the gas
between stars and galaxies was opaque – energetic starlight could not penetrate
it. But 1 billion years after the big bang, the gas had become completely
transparent. Why? New data from NASA’s James Webb Space Telescope has
pinpointed the reason: The galaxies’ stars emitted enough light to heat and
ionize the gas around them, clearing our collective view over hundreds of
millions of years.
The results, from a research team led
by Simon Lilly of ETH Zürich in Switzerland, are the newest insights about a
time period known as the Era of Reionization, when the universe underwent
dramatic changes. After the big bang, gas in the universe was incredibly hot
and dense. Over hundreds of millions of years, the gas cooled. Then, the
universe hit “repeat.” The gas again became hot and ionized – likely due to the
formation of early stars in galaxies, and over millions of years, became
transparent.
Researchers have long sought
definitive evidence to explain these transformations. The new results
effectively pull back the curtain at the end of this reionization period. “Not
only does Webb clearly show that these transparent regions are found around
galaxies, we’ve also measured how large they are,” explained Daichi Kashino of
Nagoya University in Japan, the lead author of the team’s first paper. “With
Webb’s data, we are seeing galaxies reionize the gas around them.”
These regions of transparent gas
are gigantic compared to the galaxies – imagine a hot air balloon with a pea
suspended inside. Webb’s data shows that these relatively tiny galaxies drove
reionization, clearing massive regions of space around them. Over the next
hundred million years, these transparent “bubbles” continued to grow larger and
larger, eventually merging and causing the entire universe to become
transparent.
More than 13 billion years ago, during the Era of Reionization, the universe was a very different place. The gas between galaxies was largely opaque to energetic light, making it difficult to observe young galaxies. What allowed the universe to become completely ionized, leading to the “clear” conditions detected in much of the universe today? Researchers using NASA’s James Webb Space Telescope found that galaxies are overwhelmingly responsible. Credits: NASA, ESA, CSA, Joyce Kang (STScI)
Lilly’s team intentionally targeted
a time just before the end of the Era of Reionization, when the universe was
not quite clear and not quite opaque – it contained a patchwork of gas in
various states. Scientists aimed Webb in the direction of a quasar – an extremely luminous
active supermassive black hole that acts like an enormous flashlight –
highlighting the gas between the quasar and our telescopes. (Find it at the
center of this view: It is tiny and pink with six prominent diffraction
spikes.)
As the quasar’s light traveled
toward us through different patches of gas, it was either absorbed by gas that
was opaque or moved freely through transparent gas. The team’s groundbreaking
results were only possible by pairing Webb’s data with observations of the
central quasar from the W. M. Keck Observatory in Hawaii, and the European
Southern Observatory’s Very Large Telescope and the Magellan Telescope at Las
Campanas Observatory, both in Chile. “By illuminating gas along our line of
sight, the quasar gives us extensive information about the composition and
state of the gas,” explained Anna-Christina Eilers of MIT in Cambridge,
Massachusetts, the lead author of another team paper.
The researchers then used Webb to
identify galaxies near this line of sight and showed that the galaxies are
generally surrounded by transparent regions about 2 million light-years in
radius. In other words, Webb witnessed galaxies in the process of clearing the
space around them at the end of the Era of Reionization. To put this in
perspective, the area these galaxies have cleared is approximately the same
distance as the space between our Milky Way galaxy and our nearest neighbor,
Andromeda.
Until now, researchers didn’t have
this definitive evidence of what caused reionization – before Webb, they
weren’t certain precisely what was responsible.
What do these galaxies look like?
“They are more chaotic than those in the nearby universe,” explained Jorryt
Matthee, also of ETH Zürich and the lead author of the team’s second paper.
“Webb shows they were actively forming stars and must have been shooting off
many supernovae. They had quite an adventurous youth!”
NASA’s James Webb Space Telescope
has returned extraordinarily detailed near-infrared images of galaxies that
existed when the universe was only 900 million years old, including
never-before-seen structures. These distant galaxies are clumpy, often
elongated, and are actively forming stars.
Credits: NASA, ESA, CSA, Simon
Lilly (ETH Zürich), Daichi Kashino (Nagoya University), Jorryt Matthee (ETH
Zürich), Christina Eilers (MIT), Rob Simcoe (MIT), Rongmon Bordoloi (NCSU),
Ruari Mackenzie (ETH Zürich); Image Processing: Alyssa Pagan (STScI), Ruari
Macke
Along the way, Eilers used Webb’s
data to confirm that the black hole in the quasar at the center of this field
is the most massive currently known in the early universe, weighing 10 billion
times the mass of the Sun. “We still can’t explain how quasars were able to
grow so large so early in the history of the universe,” she shared. “That’s
another puzzle to solve!” The exquisite images from Webb also revealed no
evidence that the light from the quasar had been gravitationally lensed,
ensuring that the mass measurements are definitive.
The team will soon dive into
research about galaxies in five additional fields, each anchored by a central
quasar. Webb’s results from the first field were so overwhelmingly clear that
they couldn’t wait to share them. “We expected to identify a few dozen galaxies
that existed during the Era of Reionization – but were easily able to pick out
117,” Kashino explained. “Webb has exceeded our expectations.”
Lilly’s research team, the Emission-line galaxies
and Intergalactic Gas in the Epoch of Reionization (EIGER), have demonstrated the unique
power of combining conventional images from Webb's NIRCam (Near-Infrared Camera) with
data from the same instrument's wide-field slitless spectroscopy mode, which
gives a spectrum of every object in the images
– turning Webb into what the team calls a “spectacular spectroscopic redshift machine.”
The team’s first publications
include “EIGER I. a large
sample of [O iii]-emitting galaxies at 5.3 < z < 6.9 and direct evidence
for local reionization by galaxies,” led by Kashino, “EIGER II. first
spectroscopic characterisation of the young stars and ionised gas associated
with strong Hβ and [OIII] line-emission in
galaxies at z = 5 – 7 with JWST,” led by Matthee, and “EIGER III.
JWST/NIRCam observations of the ultra-luminous high-redshift quasar
J0100+2802,” led
by Eilers, and will be published in The Astrophysical Journal on June 12.
The James Webb Space Telescope is the world’s premier space science observatory. Webb will solve mysteries in our solar system, look beyond to distant worlds around other stars, and probe the mysterious structures and origins of our universe and our place in it. Webb is an international program led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.
Source: NASA’s Webb Proves Galaxies Transformed the Early Universe | NASA
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