The most powerful black hole explosion in the universe, using data from the lunar X-ray space observatories of ESA XMM-Newton and NASA. Using two Earth-based radio telescopes in Australia and India and using data from ESA’s XMM-Newton space observatories and lunar X-rays. Astronomers have taken care of the most powerful eruption ever seen in the universe. The cluster of Ophiuchus galaxies exploded strongly.
most powerful black hole explosion
A cluster of thousands of galaxies is about 390 million light years away. The explosion is approximately five times greater than the previous record holder, seen in the MS 0735.6 + 7421 galaxy cluster and hundreds and thousands of times more than typical clusters. The largest black hole explosion seen in the universe is found in the combination of Chandra and XMM-Newton’s X-ray data.
astronomer at the Curtin University
A combination of Murchison Widefield Array and the MetroWave Giant Telescope, as shown here. The explosion is generated by a black hole located in the central galaxy of the Offiches galaxy cluster. Which has destroyed the jet and engraved a large cavity in the surrounding hot gas. The event was exceptionally energetic. Previously we had seen explosions in the centers of the galaxies.
But this is very, very massive and we have no idea why it is so big, said Professor Melanie Johnson-Hallit, an astronomer at the Curtin University node at the International Center for Research in Radio Astronomy. The evidence of the largest black hole explosion seen in the Universe comes from of a combination of X-ray data from Chandra and XMM-Newton.
And the Murchison Widefield Array and the MetroWave Giant Telescope, as shown here. The explosion is generated by a black hole located in the central galaxy of the Offiches galaxy cluster, which has destroyed the jet and engraved a large cavity in the surrounding hot gas. But it happened at a very slow pace, like an explosion that happened over hundreds of millions of years.
Milky Way galaxies in a row
In 2016, a team of astronomers found the first signs of a massive explosion in Chandra’s data. Andreporting an unusual curved edge discovery in the X-ray image of the Ophiuchus cluster of .. They considered whether this edge could indicate a cavity in the hot gas associated with the black hole jets, but excluded the possibility at that time.
In the new study, Professor Johnson-Hallit and his colleagues also detected a curved edge in the XMM-Newton data, confirming previous lunar observations. The researchers reviewed the data combined with radio wave observations from the Offiches group of the Murchison Widefield Array (MWA) in Australia and the Metrewave Giant Radio Telescope (GMRT) in India.
Which revealed that the curved edges delimit the region filled with radius. The emitting gas and, in fact, the hot gas have part of a wall of the cavity. People were skeptical about the size of the outbreak, said Professor Johnson-Hallit. The universe is a strange place. The radio data fits inside the x-rays like a hand in a glove.
This is the clinic that tells us about an explosion of an unprecedented size here, said Dr. Maxim Markiewicz of NASA’s Goddard Space Flight Center. The black hole explosion produced five times more energy than at that time. Which is involved in the most powerful event of this type, known as MS0735.6 + 7421. The difference is that you can place 15 Milky Way galaxies in a row.
extremely powerful explosion
Which have been dragged into the cluster’s hot gas in this explosion, said Dr. Simona Giacintucci, an astronomer at the US Naval Research Laboratory. This discovery underscores the importance of studying the universe at different wavelengths, said Professor Johnson-Hallit. Going back and doing a study of multiple wavelengths has really made a difference here. This discovery is reported in an article in the Astrophysical Journal.
Scientists make the largest known explosion in the universe. The explosion is five times greater than any other known explosion. Scientists have observed an extremely powerful explosion in the Ophiuchus galaxy cluster, which is located at a distance of approximately 390 million light years from Earth. Here, a compound that shows the area in X-ray, infrared, and radio wavelengths.
Scientists have created an extremely powerful explosion in the Ophiuchus galaxy cluster. Which is located at a distance of approximately 390 million light years from Earth. Here, a compound that shows the area in X-ray, infrared, and radio wavelengths. Astronomers have created a cosmic explosion that outshines everyone else.
A remote eruption, traversing a distant galaxy cluster, released nearly five times more energy than the previous record holder, a new study reports. In some ways, the explosion is similar to the 1980 Mount St. Helens eruption that exploded on top of a mountain, study author Simona Giacintuki said in a statement from the Naval Research Laboratory in Washington, DC.. An important difference is that you can put all 15 Milky Way galaxies in a row in the well.
global energy consumption
Which was dragged into the hot cluster gas in this explosion. Our Wide Universe: Age, History, and Other Facts. The explosion occurred in the Offiches group, which is about 390 million light years from Earth. Giacintuki and his colleagues discover that one of the component galaxies in the source cluster contained and a supermassive black hole, specifically, radiation from monsters and jets of material that engulf light, which are powered by gas and dust.
The possibility of an incredibly powerful Ophiuchus explosion was first raised in 2016 in a study led by Norbert Werner. Which examined images captured by NASA’s Lunar X-ray Observatory. Werner and his colleagues reported a strange curved edge in the group, which may have been part of the cavity wall formed by an explosion and what an explosion it would be:
Scientists calculated that it would take about 5 times 10 ^ 54 joules of energy to create such a cavity. In perspective, humanity’s total global energy consumption is approximately 6 times 10 ^ 20 joules each year. But the 2016 study didn’t establish that an explosion was really responsible for that curved edge.
Giacintucci and his colleagues made this decision by analyzing additional X-ray data from Chandra and Europe’s XMM-Newton Space Telescope and as well as radio information collected by the Murchison Widefield Array in Australia and the giant radio telescope MetroWave in India. The combined data suggests that the curved edge is actually part of a cavity wall and as it borders an area rich in radio emissions.
The researchers said the emission likely occurred when the black hole outbreak caused the electrons to accelerate to the speed of light. The radio data fits inside the radiograph like a hand in a glove, said co-author Maxim Markiewicz of NASA’s Goddard Space Flight Center in Greenbelt, Maryland. It is the clinic that tells us that there was an explosion of unprecedented size here.
The researchers said that the energy released by the Ophichus eruption is hundreds of times greater than the eruptions typically seen in galaxy clusters. And this is almost five times greater than the previous record holder. The explosion in cluster MS 0735.6 + 7421. Offiches fireworks watch. The radio data shows no evidence of ongoing jet activity, the scientists said.
This is a bit strange, because the black hole jets generally go in two different directions. The researchers said that jet feed gas, on the other hand, unlike the detected cavity, may be less abundant and radio emissions spread much faster. The new study was published in the February 27 issue of the Astrophysical Journal. You can read a print of the newspaper for free through arXiv.org.
Our X-ray Universe: Incredible photos from NASA’s Lunar X-ray Observatory. The strangest black hole in the universe. History and structure of the universe (infographic). Mike Wall is the author of “Out That” (Grand Central Publishing, 2018; illustrated by Carl Tait), a book on the discovery of extraterrestrial life.
The entire space magazine takes you on an incredible journey from our solar system and beyond, incredible technology and spaceships that allow humanity to orbit the complexities of space science. Astronomers Detected The Largest Eruption – Astronomers detected the largest eruption in the history of the universe. Scientists studying distant galaxy clusters have discovered the largest eruption ever seen in the universe since the Big Bang.
Scientists studying distant galaxy clusters say they have found a new record for the largest eruption ever seen in the universe since the Big Bang our universe began. The explosion is believed to have come from a supermassive black hole at the center of a galaxy, hundreds of millions of light-years away, at the center of a cluster of galaxies.
Researchers estimate that the explosion releases five times more energy than the previous record holder and thousands of times more energy than a typical galaxy cluster. Astrophysicist Melanie Johnson-Hallit of Curtin University in Perth, Australia, is co-author of a study on the explosion.
Which was published in The Astrophysical Journal on February 28, 2020. She said the incident was exceptionally energetic. We had previously seen explosions at the galaxy centers, but this is very, very massive. And we don’t know why it is so big. But it happened very slowly, like a slow motion explosion that took place in hundreds of millions of years.
An explosive eruption occurred in the Ophichus galaxy cluster about 390 million light years from Earth. The largest structures in the universe bound by gravity are galaxy clusters, containing thousands of individual galaxies, dark matter, and hot gases. At the center of the Ophiuchus cluster, there is a large galaxy containing a supermassive black hole.
The researchers think that this black hole is the source of the great explosion. The explosion was so powerful that it made a hole in the superheated gas, cluster plasma around the black plasma. Although black holes are famous for drawing material towards them, they often expel significant amounts of material and energy.
This is when the material falling into the black hole is redirected into jets or beams, which explode into space and collide with the material around it. Astronomers say the amount of energy required to create a cavity in Ophiuchus is hundreds and thousands of times greater than that of the previous record, MS 0735 + 74, and typical groups.
Two space-based X-ray telescopes (Chandra and XMM-Newton) and 2 ground-based radio telescopes (the Murchison Widefield Array in Australia and the giant MetroWave telescope in India) worked together to provide data that is now the most important in the universe. It is considered very well known. The blast exploded the jet and wrapped a large cavity in hot gas around a supermassive black hole.
Giant Metaway Radio Telescope
Image via NASA. Washington, d. C. Simona Giacintuki, lead author of the study at the Naval Research Laboratory, said the explosion was similar to the eruption of Mount St. Helens in 1980 that ripped off the top of a mountain. She said in a statement. The difference is that you can place 15 Milky Way galaxies in a row in the well. Which in this explosion was trapped in the hot gas from the cluster.
Astronomers made this discovery using X-ray data from NASA’s Lunar X-ray Observatory and ESA’s XMM-Newton and radio data from the Murchison Widefield Array (MWA) in Australia and the Giant Metaway Radio Telescope (GMRT) in India. Johnson-Hallit said the cavity in cluster plasma was first seen with X-ray telescopes, but scientists initially rejected the idea that it could be due to an energy outbreak, because it was too large.
He said: People were skeptical about the size of the outbreak. But in fact it is so. The universe is a strange place. The researchers only realized what they discovered when they observed the Ophichus galaxy cluster with the radio telescope. Maxim Markevich of NASA’s Goddard Space Flight Center. He is a co-author of a study. he said: The radio data fits inside the radiograph like a hand in a glove. This is the clinic that tells us that there was an explosion of unprecedented size here.