Webb telescope discovers galaxy with glowing gas brighter than stars
The James Webb Space Telescope has discovered an unusual galaxy. Its uniqueness lies in its gas glowing brighter than its stars. This phenomenon is expected to be valuable for studying the history of the early universe.
7:04 AM EDT, September 28, 2024
Using the James Webb Space Telescope, astronomers have recorded the first recorded case of a galaxy in the young universe whose gas emits more light than its stars. This extraordinary phenomenon provides valuable information about the early stages of the universe's development.
The James Webb Space Telescope has enabled another unusual discovery. A team from the University of Oxford spotted a unique galaxy that existed around a billion years after the Big Bang. The uniqueness of this object lies in the fact that the interstellar gas in the galaxy glows brighter than its stars.
Key to history
This discovery could be crucial for understanding the evolution of the universe. It represents a missing link between the first stars and well-formed galaxies.
"When I looked at the light spectrum of this galaxy, my first thought was, ‘this is strange.’ This is exactly what Webb was created for – to discover entirely new phenomena in the early universe. They help us understand how cosmic history began," says Dr. Alex Cameron, leading the study described in "Monthly Notices of the Royal Astronomical Society".
The research showed that observations of galaxy 9422 almost precisely match computer models of gas heated by hot, massive stars. According to Dr. Harley Katz, it looks like the stars are much hotter and more massive than those we see in the local universe. This is due to differences between the early and contemporary universe.
Typically hot, massive stars in the local universe reach temperatures from 70,000 to 90,000 degrees Fahrenheit. However, according to the team, the stars in the discovered galaxy 9422 have temperatures exceeding 140,000 degrees Fahrenheit. The researchers believe the galaxy is in a short phase, with many massive, hot stars forming in a dense gas cloud. This cloud is exceptionally bright because it is bombarded with many light photons emitted by these stars.
The existence of such gas was expected in the surroundings of the first generation of stars – the so-called Population III stars. However, scientists emphasize that this galaxy does not contain Population III stars. Webb's telescope data indicate excessive chemical complexity.
"The exotic stars of the galaxy differ from those we know – they may provide a clue to understanding the path from primordial stars to the types of galaxies we know today," says Dr. Katz.
Despite the significant discovery, many questions remain unanswered. Are the observed conditions common in galaxies from that period, or is it rather a rare phenomenon? Can they provide additional information about the earlier phases of galaxy evolution? – astronomers ask.
"This is a very exciting time when we can use the Webb Telescope to study a previously inaccessible period in the history of the universe," emphasizes Dr. Cameron. "We are just beginning to make new discoveries and gain a broader understanding," he adds.