The massive dying galaxy formed 1.5 billion years after the Big Bang, The farthest dying galaxy to date, bigger than our Milky Way with more than one trillion stars, shows that the core of this system formed 1.5 billion years after the Big Bang, about 1 billion years earlier than previously unveiled measurements.

This discovery will add to our knowledge of the origin of the universe in general and could lead to a review of computer models used by astronomers, one of the most basic tools. Galaxies are classified as dead or alive: dead galaxies no longer form stars, while living galaxies are still bright forming stars and researchers said this dying galaxy formed 1.5 billion years after the Big Bang.

Carbonated galaxies are galaxies that are dying, which means that star formation is significantly suppressed. Galaxy galaxies are not as bright as galaxies that are fully alive, but they are not as dark as dead galaxies. The researchers used this brightness spectrum as the first identification line when observing galaxies in the universe.

A research team recently discovered a giant massive dying galaxy formed 1.5 billion years after the Big Bang, the most distant of its kind. This finding is reinforced by the fact that this dying giant system might not have occurred while they were still living and forming stars. extreme like the average galaxy population.

One problem with detailed observations of galaxies is that telescopes currently available on Earth generally can only find the most extreme systems.

With the new James Web Space Telescope, which is scheduled for release in 2021, astronomers can obtain detailed data that must be in accordance with this normality. The method developed in close collaboration between the Japanese team and the Niels Bohr Institute team has proven successful against the background of the latest results.

What has been observed is not far from the latest model predictions. Until now, we did not have many observations to compare with the model. However, the situation is developing rapidly and with JWST we will have more valuable samples in a few years compared to normal galaxies.

The more galaxies we can study, the better we understand the nature or situation that leads to certain conditions when the galaxy is alive, dying, or dead, researchers say. It’s basically about writing the history of the universe correctly and in more detail. At the same time, we prepared a computer model to consider our observations, which is a remarkable improvement not only for our industry, but for astronomy as a whole.


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