WEBVTT FILE 1 00:00:00.000 --> 00:00:07.108 [ INSIDE THE IMAGE // HUBBLE SPACE TELESCOPE ] 2 00:00:07.108 --> 00:00:10.418 [Earendel] 3 00:00:10.418 --> 00:00:13.179 What we're looking at here is an image from the Hubble Space 4 00:00:13.179 --> 00:00:16.307 Telescope of the Sunrise Arc, which is this long 5 00:00:16.307 --> 00:00:19.477 red banana that you can see on the screen, right there. 6 00:00:19.477 --> 00:00:23.440 And then what's highlighted by that white arrow is the lensed star 7 00:00:23.440 --> 00:00:27.235 Earendel, which is the most distant star that's been observed so far. 8 00:00:27.235 --> 00:00:34.034 So we're seeing this entire galaxy as it was about 13 billion years ago. 9 00:00:34.034 --> 00:00:37.454 This particular discovery was thanks to gravitational lensing. 10 00:00:37.454 --> 00:00:38.329 So what you can kind of see 11 00:00:38.329 --> 00:00:41.499 in the background here with all these sort of yellowish galaxies, 12 00:00:41.499 --> 00:00:44.627 those are all galaxies that are part of a galaxy cluster. 13 00:00:44.627 --> 00:00:45.670 And this galaxy cluster is 14 00:00:45.670 --> 00:00:49.841 a very massive object that actually bends the spacetime around it. 15 00:00:49.841 --> 00:00:54.054 And as the light from this distant galaxy passes through that distorted spacetime, 16 00:00:54.054 --> 00:00:55.180 it gets magnified. 17 00:00:55.180 --> 00:00:59.207 And stretched out into this long arc that we see. 18 00:00:59.207 --> 00:01:01.460 Because of exactly where all these galaxies are 19 00:01:01.460 --> 00:01:04.000 there is a peak right here, right on this point, 20 00:01:04.000 --> 00:01:07.126 where the magnification starts to skyrocket, 21 00:01:07.126 --> 00:01:10.296 so it starts to become an incredibly high magnification just right in that spot. 22 00:01:10.296 --> 00:01:13.397 And that's how we able to to see this one star. 23 00:01:13.397 --> 00:01:15.691 The original image looks like this. 24 00:01:15.691 --> 00:01:18.835 So this is where you can see, you know, all of these sort of fuzzy 25 00:01:18.835 --> 00:01:23.086 yellow galaxies around here form a pretty clear cluster. 26 00:01:23.086 --> 00:01:23.602 You can still 27 00:01:23.602 --> 00:01:27.436 kind of see this faint red arc down here at the bottom. 28 00:01:27.436 --> 00:01:29.563 And that was what piqued our interest originally. 29 00:01:29.563 --> 00:01:32.858 Anything that's that red is going to be at a very high redshift, 30 00:01:32.858 --> 00:01:34.827 which means it's very early in the universe. 31 00:01:34.827 --> 00:01:37.612 So that was kind of why we first got interested. 32 00:01:37.612 --> 00:01:40.490 You can also see just kind of how long this object is. 33 00:01:40.490 --> 00:01:45.912 So this is the longest lensed arc that we've seen at a redshift six or above. 34 00:01:45.912 --> 00:01:48.769 So that's within the first billion years of the universe. 35 00:01:48.769 --> 00:01:53.315 And it kind of opens the door to looking at the very first generation of stars. 36 00:01:53.315 --> 00:01:57.000 So, the very first stars would form, you know, a few hundred 37 00:01:57.000 --> 00:01:59.730 million years, maybe 1 to 300 million years after the Big Bang. 38 00:01:59.730 --> 00:02:01.427 It's kind of that ballpark. 39 00:02:01.427 --> 00:02:03.494 So this kind of gives us a foot in that door. 40 00:02:03.494 --> 00:02:06.748 That gives us a really good chance to continue to discover 41 00:02:06.748 --> 00:02:08.332 more of these objects and, 42 00:02:08.332 --> 00:02:10.418 you know, hopefully push that boundary a little bit further 43 00:02:10.418 --> 00:02:14.772 and really get a chance to to find one of the very first generation stars. 44 00:02:14.772 --> 00:02:18.981 Image of Earendel -WHL0137-LS. Hundreds of galaxies in the image with a box callout of the sunrise arc with a white arrow pointing to Earendel. 45 00:02:18.981 --> 00:02:25.603 Follow us on social media @NASAHubble