Supermassive black holes found to be 1,000 times larger than thought

Researchers using the James Webb (JWST) telescope discovered supermassive black holes in distant galaxies of the early universe. Modern galaxies, such as the Milky Way, have black holes with masses representing about 0.01 percent of the star's mass. The new study reveals that in some early galaxies, black holes have masses equal 10 percent of the star's mass.

The research team, led by Jorryt Matthee from the Institute of Science and Technology Austria, found that in the most extreme cases, black holes are 1,000 times more massive than expected. According to Live Science, this discovery might bring astronomers closer to solving the mystery of how black holes formed in the early universe. Researchers claim they are getting closer to a groundbreaking discovery.

Since the summer of 2022, the JWST telescope has been providing data that help astronomers better understand the early cosmos. Among other things, supermassive black holes with masses of millions of solar masses have been discovered. However, these studies are problematic because they assume that the processes leading to phenomena like black holes take longer than a billion years.

JWST studies have also revealed images of galaxies with small red dots, which began to form just 1.5 billion years after the Big Bang. The red color of these galaxies comes from the gas and dust around black holes, which emit enormous amounts of electromagnetic energy. Matthee and his team identified seven such galaxies whose light has traveled to us for 12.5 billion years.

The recent discovery of galaxies known as "small red dots," which possess active galactic nuclei (AGN), provides evidence that black holes might have been actively growing in galaxies with relatively low stellar masses, amounting to only about 100 million solar masses, in the early period of the universe. This suggests that the black hole formation and growth process could have occurred much faster than the currently observed rate.

Matthee emphasizes that the next steps in the research will involve ruling out the possibility of erroneous measurements of black holes and galaxies' masses. JWST will play a key role in further discoveries, enabling more accurate mapping of galaxies and their properties. These studies are exciting and may bring new insights into the early universe.