The <a href="https://www.thenationalnews.com/uae/2023/07/12/james-webb-space-telescope-celebrates-first-anniversary-with-new-image/" target="_blank">James Webb Space Telescope </a>has observed the farthest star yet detected in the universe, revealing new details of its temperature and surroundings. Even though it was first discovered by its predecessor – the <a href="https://www.thenationalnews.com/world/2023/07/28/james-webb-space-telescope-detects-water-vapour-in-planetary-system/" target="_blank">Hubble Space Telescope</a> – the latest findings show that the star is more than twice as hot as the Sun, and about a million times brighter. It has been given the name Earendel by astronomers and is located in the Sunrise Arc galaxy, which is about 12.9 billion light-years away. “Nasa’s James Webb Space Telescope has followed up on observations by the Hubble Space Telescope of the farthest star ever detected in the very distant universe, within the first billion years after the big bang,” the US space agency said on Tuesday. The telescope was able to spot the star because of gravitational lensing, which is when a massive nearby galaxy curves space-time and bends the path of light around it, allowing neighbouring objects to become visible. Earendel became visible because it was located behind a wrinkle in space-time created by the galaxy cluster WHL0137-08. “The galaxy cluster, located between us and Earendel, is so massive that it warps the fabric of space itself, which produces a magnifying effect, allowing astronomers to look through the cluster like a magnifying glass,” Nasa said. The new data has also shown that Earendel could have other stars near by. Astronomers studied the colours of Earendel to see whether it had neighbours. “Stars as massive as Earendel often have companions. Astronomers did not expect Webb to reveal any companions of Earendel since they would be so close together and indistinguishable in the sky,” Nasa said. “However, based solely on the colours of Earendel, astronomers think they see hints of a cooler, redder companion star. “This light has been stretched by the expansion of the universe to wavelengths longer than Hubble’s instruments can detect, and so was only detectable with Webb.” Webb was launched into space on Christmas Day, 2021, to study the evolution of the universe and give astronomers deeper insights into the solar system. Since beginning operations, the telescope has given scientists a peak at stars and galaxies formed in the early universe. The $10 billion telescope was developed by Nasa and the European and Canadian space agencies.