By Will Dunham
WASHINGTON (Reuters) – Astrologists noticed two distant galaxies – both of whom have almost many stars such as the Milky Way – they care about each other before their inevitable integration at a time when the universe was about the fifth era of its current era, a scene that resembles Knights that shake in Jos.
The galaxies, observed using the Chile based telescopes, were seen that had been around about 11.4 billion years ago, or about 2.4 billion years from the Big Bang event that started the universe.
At the heart of one of the galaxies, Coawar is located, a very bright body supported by gas and other materials that fall into a super black hole. Intensive radiation is seen across the electromagnetic spectrum released by the kawazar, and it disrupts clouds from gas and dust, known as molecular clouds, in the other galaxy.
It is the molecular clouds that lead to stars. Astronomical physicist Sergey Balshif of the IFFE Institute in Saint Petersburg, author of the joint study in the magazine, said that the effects of the kawazar radiation turned clouds in the affected area into “only small small fasteners that are made up of stars.”
This is the first time that the phenomenon of such a phenomenon has been observed.
Stars are formed by slow shrinkage under the attractiveness of these clouds, with small centers that form to heat and become new stars. But the galaxy, which was affected by the radiation of the Kawazar, was left with fewer areas that could serve as the role of stellar custody, which undermines the rate of stars formation.
Remember the interaction between the two galaxies of the researchers rudely from the Middle Ages.
“It is very similar to the knights that are eager to each other, these galaxies are close. One of them – the host – quear – emanates from a strong beam of radiation that penetrates the accompanying galaxy, like Lance. This radiation is” wounds. “
Overage black holes are found in the heart of many galaxies, including the Milky Way. The researchers estimated the iron mass that operates as a motor for the pawar, who studied in this research about 200 million times from our sun.
The intense gravitational force of the super black hole pulls gas and other materials towards it. Since these things sparkle inside at a high speed, they rise due to friction, which constitutes a disk that emites from very strong radiation in two opposite directions, called bilateral symptoms.
UV light from one of these packages is what played chaos with gas in the accompanying galaxy.
This huge super black hole is more huge than the hole in the middle of the Milky Way – called the Sagittarius A*, or SGR A* – which has approximately 4 million times the mass of the sun and is about 26,000 light -years away from Earth. The optical year is the light distance per year, 5.9 trillion mile (9.5 trillion km).
Researchers used Atacama Millimter/Sublilemeter, or Alma, to describe galaxies and used the very large telescope for the southern European Observatory, or VLT, to investigate the Kawazar as well as gas in the accompanying galaxy.
The formation of galaxies was also displayed from the Earth’s perspective for researchers to monitor radiation from the Kawazar, which passes directly through the accompanying galaxy.
Most of the Hungarian merger that astronomers have later noticed occurred in the history of the universe.
“There are usually galaxies in groups, and natural reactions naturally lead to incorporations on the cosmic time,” Nottaardim said. “Watching with the current understanding, these two galaxies will eventually gather into one larger galaxy. Kawazar will fade while exhausting the available fuel.”
(Will Doneham’s reports, edited by Rosalba Operation) participated
