James Webb space telescope (JWST) has discovered an object that may be the earliest galaxy in the universe from famous science. However, for an application for a record, there is not enough belief that this is a galaxy.
The potential detection has been done during the search for remote objects in the JWST data formed at the early stages of our universe history. Giovanni Gandolfi of Paduan University and his colleagues revealed the details in the article about astronomy & astrophysics.
The farther the galaxy is from the earth, the more time it takes to approach us and it turns to the red tip of the spectrum due to the expansion of the space-an attribute called the red movement.
So far, JWST has discovered the earliest confirmed the Galaxy and named Mom-Z14-has a red shift of 14.4. This means that the light from her, which we now see, has started our journey when the universe is 280 million years old. The authors of the study reported a great object with a red shift of 32 – that is, if it was a galaxy, then we saw it was only 90 million years after a big explosion. The candidate in the galaxy is called Kapotauro to honor the mountain in Italy.
According to Gandolfi, Capotauro may turn out to be the farthest of the galaxies that have seen, on the temporary segment, corresponding to the period of forming the first stars and black holes in the universe.
The team came to this conclusion, noticing a small point in the deep review of Sky JWST, looking like a distant galaxy. Her red shift, designed by different filters of telescopes, reached 32.
If this is true, the object may be an extremely young galaxy in the process of formation or something even more abnormal, for example, a main black hole surrounded by a dense atmosphere-a mutation.
Capotauro seemed unusually bright for a remote-shining galaxy that could be compared to Mom-Z14 mentioned above with much smaller redness. If the calculations are accurate, this shows that the volume is estimated at one billion more sunny times – beyond the theory that allows such a youth of the universe.
In order to achieve such a volume, the effectiveness of the gas transformed into a star is nearly 100%, drawings from the Thai National Astronomical Research Institute: This means that no star can explode.
However, the model shows that an index does not exceed 102020%is possible.
I think there is something wrong here, she summarizes.
If this is not a galaxy, then the object may be a brown dwarf-a star failure-a planet corner of our galaxy appearing. According to Gandolfi, both of these explanations are also very interesting, because it will be a special dwarf or planet from afar and cold – at a distance of up to 6,000 light years and with temperatures near the room.
This may be one of the first subsidiaries formed in our galaxy, astronomer said.
To find out for sure, it will take more time for JWST to analyze the light from the object in detail. At least the will, although it is inclined to the version that this is not a galaxy, considering the additional inspection so useful.
If this is a galaxy with a red change of 32, most of what we still think will be wrong, she added.
