The closest ring of Einstein, the European Space Agency received the Euclid Space Telescope
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The astronomers have identified the closest ring in Einstein, a rare phenomenon, which is bound by the gravity of a galaxy closer to the ground from a galaxy. The ring was thought to be an earlier galaxy and identified more than 100 years ago.
Galactic lens like this, that is, the closest astronomers ever found, announced by Albert Einstein in 1936, from its general relativity. At the time, he thought it would be impossible to influence. In fact, it was one that was able to see if the telescope was strong enough. “All was fine, but we didn’t have any idea,” he says Thomas Collett Portsmouth University, United Kingdom.
Collett and his team realized that he had 600 million lights from Earth 600 million lights and in 1884, behind the light of a second galaxy behind the ground, about 6 trillion light from the ground.
Team member Bruno Altieri While the Einstein Ring Einstein saw the Einstein, the Euglid was validating early Telescope tests, which will recently be scanning the evolution of galaxies within the galaxies that will be a third of the night. “There was plenty of Einstein rings. There aren’t many things in the universe that can create such a ring,” Collett says.
“We would have other options that seemed as impressive as this throughout the survey,” he said. “First, first of all, the former data was lucky. This is probably the prettiest lener we will find in the mission.”
The ring itself is extra bright, compared to most Einstein rings that we know, because Collett is very close, but due to the skills of Euclid images. “It’s like someone who has a bad look is putting glasses,” says Collettek. This makes it easier to see Faroway Galaxy’s four images. The weak orange light on the bright ring is the lens galaxy.
Einstein ring, therefore, will allow us to test other lenses in the ways we cannot, because Collett can measure the mass of the galaxy in two ways and using the speed of the stars, they are very far from measuring measurements. Einstein’s general relativity says these masses should be the same, so any difference can propose our theory gravity should be changed.
When Collett and his colleagues measured the mass of the lens galaxy, they should be a greater amount than estimated stars in the galaxy. That’s the Galaxy center together because of dark matter, he says Frédéric Dux At the southern European observatory, we must find many more Einstein lenses to confirm, he says.
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