The missing link in the origin of the black hole discovered! All thanks to the Hubble telescope

NASA’s Hubble Telescope has discovered a critical “missing link” in studying the origins of supermassive black holes. Here’s what we know now.

NASA’s Hubble Telescope has found the “missing link” between young star-forming galaxies and the first supermassive black holes! Astronomers believe the fast-growing black hole identified in the early universe by the Hubble telescope will solve the mystery of the beginning of the universe. NASA scientists say this is the first time we have actually spotted one of the few objects that bridges the gap between understanding young star-forming galaxies and the first supermassive black holes. What makes history? The discovery of the monster black hole, dubbed GNz7q, which lurked unnoticed in one of the best-studied areas of the night sky.

Scientists used Hubble data from the Advanced Camera for Surveys to figure out that GNz7q only existed 750 million years after the big bang. GNz7q is a newly generated black hole, scientists say. Hubble has discovered a compact source of UV and infrared light. This might not be due to galaxies emitting light, but it is consistent with the radiation that would be expected from objects falling into a black hole. Theories and computer simulations predicted a rapid expansion of black holes in the first star-forming dusty galaxies, but they had never been detected until today.

Read also : Are you looking for a smart phone? To check the mobile locator, click here.

What this discovery means

After discovering a compact source of ultraviolet (UV) and infrared radiation, Hubble confirmed that GNz7q is a newly formed black hole. Scientists have only ever predicted the existence of these missing connections in dusty galaxies with early star formation, but have never seen any.

“Our analysis suggests that GNz7q is the first example of a rapidly growing black hole in the dusty core of a star-shaped galaxy at a time close to the first known supermassive black hole in the universe,” an astronomer said. Niels Bohr Institute of the University. of Copenhagen explained the discovery.

According to NASA, the discovery of GNz7q could be a missing connection between young star-forming galaxies and the first supermassive black holes. NASA explained that both the dusty starburst galaxy and the quasar are present in GNz7q, with the light from the quasar exhibiting the reddish color of the dust. Additionally, GNz7q lacks a number of features seen in normal and bright quasars, which is likely due to the fact that GN7q’s central black hole is still in its early phase. Having said that. these characteristics are identical to those of a young phase-transition quasar anticipated in simulations but never observed in the universe. Now, the research team hopes to systematically search for similar objects.

Harry D. Gonzalez