The Hubble Space Telescope detects the most distant star ever seen
The Hubble Space Telescope monitored the most distant star ever seen, and it was called “Erendelle”, as its light took 12.9 billion years to reach Earth.
Scientists estimate that the size of the star, which competes with the largest known stars, is at least fifty times the size of the sun, and it is also millions of times brighter than it.
As for the previous star, which set records, it was also monitored by the Hubble telescope in 2018, but it was present in a universe dating back four billion years, compared to regarding 900 million years ago, according to “Erndel”, according to experts.
“At first, we didn’t believe” what the telescope observed, lead report author Brian Welch of Johns Hopkins University said in a statement.
Welch took the task of naming this star and named it “Erindl”, which means “morning star” in Old English.
The researcher explained that the star “has existed for so long that it may not have been made of the same materials as the stars around us today,” adding that “conducting studies regarding this star will open the way for us to learn more regarding a certain period of the universe that we do not know, but which led to everything We know it today.”
This star will therefore be a major target for the new “James Webb” space telescope, whose capabilities are currently being tested in space. The European Space Agency, which operates the telescope along with the US space agency NASA, said in a statement that James Webb will be observing Erendle starting this year.
Like the sound of an object fading away as it moves away, the wave of light expands and travels from the apparent frequency to the naked eye and then to infrared radiation.
Unlike Hubble, which has a simple ability to capture infrared radiation, James Webb will focus on light waves, which will enable it to detect more distant objects.
Until today, only groups of stars have been observed at these distances, without the possibility of discerning a star specifically.
But the new star benefited from a cosmic help represented by a phenomenon called gravitational lensing, a group of galaxies located between us and the star that acts as a magnifying lens to expand the body’s light.
The European Space Agency compared this effect to ripples on the surface of the water, which in good weather can emit extended beams of light on the floor of a swimming pool.
Astronomers expect this rare alignment to continue in the coming years.