Possible Galaxy in an image of James Webpace telescope
NASA, ESA, CSA, CER, G Gandolfi
Astronomers may have discovered a galaxy that was created in the early 200 million years before the initial rival of the universe in the universe, but they are cautious that there may be more explanations.
At the University of Padua, Italy, Geni Gandolfi and his colleagues investigated data from the James WebSpace Telescope (JWST) so that our universe was formed early in the 13.8 billion years of history.
As far as a galaxy is from the ground, the light will be long as it is to reach us and by expanding the space, it will be transferred to the red end of the spectrum, which is known as the Red Shift.
To date, the preliminary certified galaxy-which was seen by the JWST and it is called the MOMZ 14-its red shift is 14.4, which means that the light from it now began to travel from us when the universe was 280 million years old. However, Gandolfi and his team have reported the amazing item with the Red Shift of 32, which shows that we are seeing it when the universe was only 90 million years old. He named him Capetoro after a mountain in Italy.
“Gandolphi says,” Capotoro cannot be the most distant galaxy ever, “says Gandolfi,” Gandolphi says.
The team saw a small blip in the deep JWST survey of the sky, and came to the conclusion that looks like a galaxy. Using various filters on binoculars, the team can then calculate how many lights are red from the galaxy, which reaches 32 data.
If correct, this thing can be a very young galaxy in the process of forming, or more unusual, such as the basic black hole surrounded by a dense environment – a speculated item called a black hole star.
However, the understood galaxy looks extraordinarily bright, which is like galaxies, such as later appearing in red shifts such as MOMZ 14, which makes it almost a billion times suspected mass of the sun-which should be possible in this period of the universe more than our model’s advice.
To achieve such a massive scale, the galaxy will have to be close to 100 %, the performance of converting gas into stars, says Lithuchulelett, at the national astronomical research institute in Thailand, says: “This means no stars can burst.” But modeling shows that more than 10 to 20 percent is not possible. “I think there’s something wrong there.”
If this is not a galaxy, Gandolfi and his team say that instead of explaining it brown dwarf – a failed star – or a bullying planet in our galaxy, is flowing into the field of JWST view, which looks like a remote galaxy. Gandolfi says, these two specifications are also interesting, as they will be especially remote and cold brown dwarves or planets, which are at 6000 light years and at room temperature.
“This can be one of the first caste established in our galaxy so far,” says Gandolfi.
Certainly, the team will need a follow -up time on JWST to separate the light of this item in a better detail. Lithuchulet says that when he supports the explanation that he is not a galaxy, he may be able to work as such.
She says, “If this is a galaxy that has a red shift of 32, then many things we have thought about will be wrong.”
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