The image, produced by a global team of scientists known as the Event Horizon Telescope (EHT) Collaboration, is the first direct visual confirmation of the presence of this unseen object, and comes three years after the first image of a black hole in a galaxy. distant.  (Photo: European Southern Observatory / AFP)

An international team of astronomers announced Thursday that they managed to capture the image of the black hole supermassive located in the center of the Milky Way, three years after having obtained that of another similar one in the galaxy M87.

The collaboration, a project known as EHT (Event Horizon Telescope) presented, in several simultaneous press conferences, the “silhouette” of the black hole named Sagittarius A* on a luminous disk of matter.

This image is similar to that of the gigantic black hole in the distant galaxy M87, much larger than the Via dairy and that the EHT released in 2019.

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Scientists believe this proves that the same principles of physics operate at the heart of two systems of very different size.

Technically a black hole cannot be examined directly, since the object is so dense, and its gravitational pull so powerful, that even light cannot escape. a its attractive force. But you can detect the matter that circulates a around him, before being gobbled up.

Black holes are called stellar when they have a mass equivalent to three times that of the Sun, and they are classified as supermassive when their mass is equal to a thousands, or even billions of suns.

Sagittarius A* (Sgr A*) was named after being detected in the direction of the constellation of Sagittarius. It has a mass of about four million suns and is located a about 27,000 light years from Earth.

This handout image released by the European Southern Observatory (ESO) on May 12, 2022, shows the first image of Sagittarius A*, the supermassive black hole at the center of our own Milky Way galaxy. – An international team of astronomers on May 12, 2022, unveiled the first image of a supermassive black hole — a cosmic body known as Sagittarius A*. The image, produced by a global team of scientists known as the Event Horizon Telescope (EHT) Collaboration, is the first, direct visual confirmation of the presence of this invisible object, and comes three years after the very first image of a black hole from a distant galaxy. Black holes are regions of space where the pull of gravity is so intense that nothing can escape, including light. (Photo by Handout / European Southern Observatory / AFP) / RESTRICTED TO EDITORIAL USE – MANDATORY CREDIT “AFP PHOTO / European Southern Observatory” – NO MARKETING NO ADVERTISING CAMPAIGNS – DISTRIBUTED AS A SERVICE TO CLIENTS / HANDOUT

Its existence had been suspected since 1974, when an unusual radio source was detected in the center of the galaxy.

In the 1990s, several astrophysicists confirmed the presence of a supermassive compact object in that place, which earned them a Nobel Prize in Physics in 2020.

The image that has been revealed this Thursday represents the first visual proof of that object.

– Hours of observation, years of calculations –

The EHT is an international network of eight radio astronomical observatories, including one located in Sierra Nevada (Spain) and another in the Atacama desert (Chile).

In 2019 the team achieved the historical image of the supermassive black hole of M87, equivalent a six billion solar masses and located a 55 million light years.

The Sgr A+ therefore represents a “featherweight” in comparison.

“We have two completely different types of galaxies and two very different masses of black holes, but when you examine their edges, those holes look remarkably similar,” said Sera Markoff, co-chair of the EHT science council, in a statement accompanying the announcement.

“That proves that the (Theory of) general relativity applies” in both cases, he added.

The image presented is the result of several hours of observation carried out essentially in 2017, and after five years of calculations and simulations carried out a carried out by more than 300 researchers from 80 institutes.

The image is much more difficult to obtain than that of M87* because the black hole at the center of the Milky Way is much smaller and because there are clouds of dust and gases that extend over thousands of light-years and obscure it.

The gas that surrounds it only takes twelve minutes to go around a this galactic object, a almost the speed of light, while in the case of the M87* it takes two weeks.

That means the luminosity and configuration of the gas changed very rapidly during the observation.

“It’s like you want to take a sharp picture of a dog that wants to catch its tail,” said Chi-Kwan Chan, a scientist at the EHT.

The two images that scientists now have, and their comparison, will allow the detailed study of the behavior of matter in extreme conditions, with plasma a “billions of degrees, powerful magnetic currents and matter circulating a a near speed a the light” he explained a AFP Professor Heino Falcke, former head of the EHT scientific council that produced the image of M87 *.

Such harsh conditions will make it possible to explore phenomena such as the deformations of space-time near a supermassive object, predicted in the general theory of relativity that Albert Einstein formulated in 1915.

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