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These are the user uploaded subtitles that are being translated: 0 00:00:00,010 --> 00:00:07,777 1 00:00:07,007 --> 00:00:08,406 Supernovas ... 2 00:00:08,408 --> 00:00:13,478 gigantic explosions that light up the cosmos. 3 00:00:13,480 --> 00:00:15,747 One of the most spectacular things in the universe 4 00:00:15,749 --> 00:00:19,083 is the death of a giant star. 5 00:00:19,085 --> 00:00:22,888 They live fast, and they die young. 6 00:00:22,890 --> 00:00:25,023 Inside the star's core, 7 00:00:25,025 --> 00:00:28,693 temperatures and pressures are immense. 8 00:00:28,695 --> 00:00:31,296 We're talking about a billion degrees 9 00:00:31,298 --> 00:00:33,965 in the center of one of these stars. 10 00:00:33,967 --> 00:00:35,367 A ticking time bomb 11 00:00:35,369 --> 00:00:39,571 that explodes with indescribable energy. 12 00:00:39,573 --> 00:00:43,575 The last minutes of a giant star's life 13 00:00:43,577 --> 00:00:47,712 are the most cataclysmic events that we see in the universe. 14 00:00:51,385 --> 00:00:56,187 Dramatic finales blazing across space. 15 00:00:56,189 --> 00:00:58,990 That one supernova is brighter 16 00:00:58,992 --> 00:01:01,059 than the hundreds of billions of stars 17 00:01:01,061 --> 00:01:02,594 that constitute the galaxy. 18 00:01:02,596 --> 00:01:04,262 How amazing is that? 19 00:01:04,264 --> 00:01:08,266 But these stellar deaths also hold the key 20 00:01:08,268 --> 00:01:10,535 to life itself. 21 00:01:10,537 --> 00:01:14,406 Understanding supernovas is understanding our story. 22 00:01:14,408 --> 00:01:16,341 We owe our existence to them. 23 00:01:16,343 --> 00:01:19,411 ... Captions by vitac ... www.vitac.com 24 00:01:19,413 --> 00:01:22,380 captions paid for by discovery communications 25 00:01:31,491 --> 00:01:34,092 Right now, somewhere in the universe, 26 00:01:34,094 --> 00:01:37,762 a giant star is detonating, 27 00:01:37,764 --> 00:01:40,898 creating a huge cosmic explosion 28 00:01:40,900 --> 00:01:43,234 called a supernova. 29 00:01:48,175 --> 00:01:54,913 supernovas are a big, giant dramatic end to a star's life. 30 00:01:58,518 --> 00:02:00,718 All stars die, 31 00:02:00,720 --> 00:02:04,522 but only the biggest go out with a bang. 32 00:02:04,524 --> 00:02:06,926 For a star to go supernova, we think it has to be 33 00:02:06,928 --> 00:02:10,529 at least eight times more massive than our sun. 34 00:02:10,531 --> 00:02:11,863 It's so easy to think of our sun 35 00:02:11,865 --> 00:02:14,999 as this incredibly gigantic thing, 36 00:02:15,001 --> 00:02:17,068 but our sun is absolutely tiny 37 00:02:17,070 --> 00:02:19,937 compared to some of the giant stars in the sky. 38 00:02:25,745 --> 00:02:29,948 We can see some of these giant stars with the naked eye, 39 00:02:29,950 --> 00:02:32,550 and the 10th brightest in the night sky 40 00:02:32,552 --> 00:02:34,285 is a red supergiant 41 00:02:34,287 --> 00:02:39,023 around 15 times the mass of the sun ... 42 00:02:39,025 --> 00:02:40,958 betelgeuse. 43 00:02:43,029 --> 00:02:46,097 betelgeuse is so big that if you were to place it 44 00:02:46,099 --> 00:02:47,765 in our own solar system, 45 00:02:47,767 --> 00:02:52,170 it would stretch to the orbit of Jupiter. 46 00:02:52,172 --> 00:02:54,907 This is one of the biggest beasts in the galaxy. 47 00:02:54,909 --> 00:02:58,376 It's a star also that is on the verge of death. 48 00:03:00,381 --> 00:03:04,916 Betelgeuse is less than 10 million years old, 49 00:03:04,918 --> 00:03:07,918 but this huge star's days are numbered. 50 00:03:07,920 --> 00:03:09,989 It's ready to blow. 51 00:03:13,126 --> 00:03:15,926 when it does, we will see a region of sky 52 00:03:15,928 --> 00:03:18,263 brighten for 14 days, 53 00:03:18,265 --> 00:03:22,733 until it's nearly as bright as a full moon. 54 00:03:22,735 --> 00:03:24,837 It is going to be one of the most spectacular 55 00:03:24,839 --> 00:03:27,271 shows in history. 56 00:03:29,342 --> 00:03:30,609 and it could happen at any moment. 57 00:03:30,611 --> 00:03:31,943 I mean, this is the thing. 58 00:03:31,945 --> 00:03:34,679 I often stand outside in my yard in the wintertime. 59 00:03:34,681 --> 00:03:37,014 I look up at Orion, and I see betelgeuse. 60 00:03:37,016 --> 00:03:39,017 And I'm like, "explode!" 61 00:03:41,020 --> 00:03:44,622 So what will make betelgeuse go supernova? 62 00:03:44,624 --> 00:03:47,291 To understand a giant star's death, 63 00:03:47,293 --> 00:03:50,095 we need to understand its life. 64 00:03:52,765 --> 00:03:55,900 from the day it's born until the day it dies, 65 00:03:55,902 --> 00:03:59,104 a star's life is a constant battle. 66 00:04:00,974 --> 00:04:02,974 gravity is pulling in, 67 00:04:02,976 --> 00:04:06,444 and energy is pushing out. 68 00:04:06,446 --> 00:04:07,779 The interior of a star 69 00:04:07,781 --> 00:04:11,449 is fusing countless atomic nuclei together. 70 00:04:11,451 --> 00:04:13,184 Atoms are ramming into each other, 71 00:04:13,186 --> 00:04:15,987 getting very, very close. 72 00:04:15,989 --> 00:04:17,255 And if they get close enough, 73 00:04:17,257 --> 00:04:20,791 they'll actually stick and form a larger atom. 74 00:04:20,793 --> 00:04:23,461 Every second, a giant star fuses 75 00:04:23,463 --> 00:04:27,598 7 1/2 billion tons of hydrogen. 76 00:04:27,600 --> 00:04:29,534 That amount of energy is roughly equivalent 77 00:04:29,536 --> 00:04:34,205 to about 100 billion atomic bombs per second. 78 00:04:34,207 --> 00:04:36,007 That's a big-ass explosion. 79 00:04:38,145 --> 00:04:39,878 This explosive energy 80 00:04:39,880 --> 00:04:43,681 threatens to blow the star apart, 81 00:04:43,683 --> 00:04:48,486 but the star's own massive gravity keeps the lid on. 82 00:04:48,488 --> 00:04:50,755 Straughn: Everything in the universe is a fight 83 00:04:50,757 --> 00:04:52,957 between the inward force of gravity 84 00:04:52,959 --> 00:04:56,294 and the outward force of pressure or energy. 85 00:04:56,296 --> 00:04:58,829 Every single star in the sky, even our own sun, 86 00:04:58,831 --> 00:05:01,098 is an incredibly dynamic battleground. 87 00:05:01,100 --> 00:05:03,034 In many ways, stars are an explosion 88 00:05:03,036 --> 00:05:04,903 that are actually too big to explode. 89 00:05:04,905 --> 00:05:06,637 Gravity holds it together. 90 00:05:09,175 --> 00:05:12,043 This battle between these two opposing forces 91 00:05:12,045 --> 00:05:15,913 determines the life and death of the star. 92 00:05:15,915 --> 00:05:18,649 And this is where size matters. 93 00:05:18,651 --> 00:05:22,853 The more massive the star, the more gravity pushes inward, 94 00:05:22,855 --> 00:05:28,058 the harder the star has to push outwards to keep itself alive. 95 00:05:30,464 --> 00:05:34,999 very massive stars are like stars on steroids. 96 00:05:35,001 --> 00:05:37,602 They have a lot of fuel to burn. 97 00:05:37,604 --> 00:05:39,071 They're so powerful 98 00:05:39,073 --> 00:05:42,674 that they use up their fuel at a rapid rate. 99 00:05:45,478 --> 00:05:49,413 Massive stars like betelgeuse are giant factories, 100 00:05:49,415 --> 00:05:52,484 fusing lighter elements into heavier ones. 101 00:05:52,486 --> 00:05:56,754 But the hard work doesn't start until their final years. 102 00:05:56,756 --> 00:06:02,427 For around 90% of their life, they fuse hydrogen into helium, 103 00:06:02,429 --> 00:06:07,365 but eventually, the hydrogen starts running out. 104 00:06:07,367 --> 00:06:09,567 In the core of a supergiant star, 105 00:06:09,569 --> 00:06:11,168 there's a sequence of fusion 106 00:06:11,170 --> 00:06:13,304 that goes from lighter elements to heavier elements, 107 00:06:13,306 --> 00:06:18,375 and it gets faster and faster every step of the way. 108 00:06:18,377 --> 00:06:21,179 The countdown to death begins. 109 00:06:21,181 --> 00:06:23,981 The inward push from gravity takes over, 110 00:06:23,983 --> 00:06:27,051 raising the temperature in the core. 111 00:06:27,053 --> 00:06:30,388 Helium starts fusing to carbon. 112 00:06:30,390 --> 00:06:34,459 There's enough helium to last about a million years, 113 00:06:34,461 --> 00:06:36,327 but it too runs out, 114 00:06:36,329 --> 00:06:39,530 and things start speeding up. 115 00:06:39,532 --> 00:06:41,265 Carbon gets fused into neon. 116 00:06:41,267 --> 00:06:43,267 That takes about 1,000 years. 117 00:06:43,269 --> 00:06:44,802 Neon fusing into silicon? 118 00:06:44,804 --> 00:06:47,005 That takes about one year. 119 00:06:47,007 --> 00:06:49,273 Once it starts fusing silicon into iron, 120 00:06:49,275 --> 00:06:52,477 that takes one day. 121 00:06:52,479 --> 00:06:53,945 It gets more and more frantic. 122 00:06:53,947 --> 00:06:56,146 It's kind of like a cooking-contest show, 123 00:06:56,148 --> 00:06:57,415 where as the clock is running down, 124 00:06:57,417 --> 00:06:58,682 they're trying to do more and more things, 125 00:06:58,684 --> 00:07:00,151 and they get more and more frantic 126 00:07:00,153 --> 00:07:02,753 until, ding, time's up. 127 00:07:05,891 --> 00:07:09,961 The star is now in its death throes. 128 00:07:09,963 --> 00:07:11,763 Sutter: Once iron production has started, 129 00:07:11,765 --> 00:07:13,497 the clock is ticking 130 00:07:13,499 --> 00:07:17,234 towards the cataclysmic end of this star. 131 00:07:20,307 --> 00:07:23,441 A giant ball of incredibly dense iron forms 132 00:07:23,443 --> 00:07:27,511 in the middle of the dying star's core. 133 00:07:27,513 --> 00:07:31,716 This iron sphere is several thousand miles across 134 00:07:31,718 --> 00:07:34,787 and unbelievably hot. 135 00:07:34,789 --> 00:07:36,188 It gets so hot there 136 00:07:36,190 --> 00:07:37,922 that temperature almost becomes meaningless. 137 00:07:37,924 --> 00:07:40,724 I mean, we're talking about a billion degrees 138 00:07:40,726 --> 00:07:42,793 in the center of one of these stars. 139 00:07:46,866 --> 00:07:51,136 This extreme heat is caused by fusion reactions. 140 00:07:51,138 --> 00:07:55,740 More and more reactions create heavier and heavier elements, 141 00:07:55,742 --> 00:07:59,277 and with each step, less and less energy is produced, 142 00:07:59,279 --> 00:08:01,945 until iron is created. 143 00:08:01,947 --> 00:08:04,615 When you try to fuse iron nuclei together, 144 00:08:04,617 --> 00:08:07,351 that takes energy. It doesn't generate energy. 145 00:08:07,353 --> 00:08:10,021 So once the core starts to fuse iron, 146 00:08:10,023 --> 00:08:13,691 it's basically stealing its own energy. 147 00:08:13,693 --> 00:08:15,159 The growing iron core 148 00:08:15,161 --> 00:08:18,229 sucks more and more energy from the star. 149 00:08:18,231 --> 00:08:20,765 Gravity continues pulling in, 150 00:08:20,767 --> 00:08:24,903 overwhelming the outward pressure from inside the star. 151 00:08:27,574 --> 00:08:30,708 everything gets crushed to unimaginable degrees. 152 00:08:30,710 --> 00:08:32,509 All of a sudden, there's no nuclear reaction 153 00:08:32,511 --> 00:08:35,380 to support the star against the crush of gravity. 154 00:08:39,786 --> 00:08:42,053 With nothing left to hold it up, 155 00:08:42,055 --> 00:08:44,254 the star is doomed. 156 00:08:44,256 --> 00:08:46,190 Gravity wins. 157 00:08:46,192 --> 00:08:48,993 The edges of the iron core collapse. 158 00:08:48,995 --> 00:08:52,130 Trillions of tons of dense iron fall inward 159 00:08:52,132 --> 00:08:54,665 at 1/4 the speed of light. 160 00:08:54,667 --> 00:08:59,070 The star now has less than one second left to live. 161 00:08:59,072 --> 00:09:03,474 Things start to fall apart real quickly. 162 00:09:03,476 --> 00:09:05,343 The core collapse is so fast 163 00:09:05,345 --> 00:09:06,878 that the outer layers of the star 164 00:09:06,880 --> 00:09:09,213 don't even have time to react. They're just hanging there. 165 00:09:09,215 --> 00:09:10,614 It's kind of like wile e. Coyote, 166 00:09:10,616 --> 00:09:12,282 when a cliff collapses underneath him, 167 00:09:12,284 --> 00:09:14,820 and he doesn't even fall until he notices. 168 00:09:16,889 --> 00:09:19,557 The rest of the star collapses. 169 00:09:19,559 --> 00:09:24,429 A trillion-trillion-trillion tons of gas hurtles inwards, 170 00:09:24,431 --> 00:09:26,230 following the iron. 171 00:09:26,232 --> 00:09:28,632 Think about the entire mass of a star 172 00:09:28,634 --> 00:09:31,635 that has been held up by nuclear reactions inside. 173 00:09:31,637 --> 00:09:33,104 All of a sudden, those nuclear reactions 174 00:09:33,106 --> 00:09:35,106 go away in a split second. 175 00:09:35,108 --> 00:09:39,109 Everything rushes into the middle. 176 00:09:39,111 --> 00:09:41,112 And that sets off the most dramatic explosion 177 00:09:41,114 --> 00:09:42,647 in the universe. 178 00:09:50,456 --> 00:09:52,190 The spectacular death blow 179 00:09:52,192 --> 00:09:55,660 can outshine all of the stars in a galaxy. 180 00:09:58,531 --> 00:10:00,198 but there's a problem. 181 00:10:00,200 --> 00:10:02,400 We still don't fully understand 182 00:10:02,402 --> 00:10:06,470 how a collapsing ball of iron and tons of falling gas 183 00:10:06,472 --> 00:10:10,074 create a giant fireball. 184 00:10:10,076 --> 00:10:13,811 How this collapsing core triggers a massive explosion 185 00:10:13,813 --> 00:10:16,714 is one of the biggest mysteries in astrophysics. 186 00:10:38,304 --> 00:10:39,904 A supernova ... 187 00:10:39,906 --> 00:10:43,107 one of the most powerful eruptions in the cosmos, 188 00:10:43,109 --> 00:10:46,778 triggered by the collapse of a massive star. 189 00:10:46,780 --> 00:10:49,580 How do you go from a violent collapse 190 00:10:49,582 --> 00:10:52,116 to an incredibly dramatic explosion? 191 00:10:52,118 --> 00:10:55,786 This involves some of the most complex astrophysics 192 00:10:55,788 --> 00:10:59,391 known to humanity, and we don't fully understand 193 00:10:59,393 --> 00:11:02,126 the details of the process. 194 00:11:02,128 --> 00:11:03,661 We're missing something, 195 00:11:03,663 --> 00:11:07,531 because we nearly always spot supernovas too late. 196 00:11:07,533 --> 00:11:09,600 What you're seeing is, you're seeing the star brightening, 197 00:11:09,602 --> 00:11:12,070 and that's really happening after the fact. 198 00:11:12,072 --> 00:11:16,207 So now the magic key is not finding a supernova 199 00:11:16,209 --> 00:11:19,410 but finding the moment that we call the breakout. 200 00:11:24,551 --> 00:11:28,019 The breakout is a giant star's death rattle. 201 00:11:28,021 --> 00:11:30,754 It's the moment after the core has collapsed, 202 00:11:30,756 --> 00:11:35,960 when the star blows apart in a huge flash of visible light. 203 00:11:38,431 --> 00:11:40,898 but in the entire history of astronomy, 204 00:11:40,900 --> 00:11:44,101 this moment has only been caught twice ... 205 00:11:44,103 --> 00:11:46,437 one by NASA's multimillion-dollar 206 00:11:46,439 --> 00:11:48,639 space telescope, kepler, 207 00:11:48,641 --> 00:11:53,911 and once by a very lucky Argentinean amateur. 208 00:11:53,913 --> 00:11:55,246 I love this story. 209 00:11:55,248 --> 00:11:57,047 There's an amateur astronomer named Victor buso. 210 00:11:57,049 --> 00:12:00,851 He has a very nice telescope in an observatory in his yard. 211 00:12:00,853 --> 00:12:02,987 And he was taking photographs repeatedly 212 00:12:02,989 --> 00:12:06,257 of the same galaxy that happened to be overhead. 213 00:12:06,259 --> 00:12:07,591 And he just happened to be looking 214 00:12:07,593 --> 00:12:09,259 at the right region of the sky, 215 00:12:09,261 --> 00:12:13,397 and he luckily caught the shock breakout of a supernova. 216 00:12:15,934 --> 00:12:18,336 The chances of catching this moment 217 00:12:18,338 --> 00:12:21,605 are 1 in 10 million. 218 00:12:21,607 --> 00:12:23,540 What Victor caught was the moment 219 00:12:23,542 --> 00:12:25,609 the shock wave reaches the surface. 220 00:12:27,613 --> 00:12:29,347 Victor noticed this spot 221 00:12:29,349 --> 00:12:31,615 appearing in his photographs. 222 00:12:31,617 --> 00:12:34,418 Realizing he'd captured the first flash of light 223 00:12:34,420 --> 00:12:36,287 from an exploding star, 224 00:12:36,289 --> 00:12:40,291 he alerted professional astronomers across the globe. 225 00:12:42,295 --> 00:12:46,297 when I heard of his discovery, I was like, "no way. 226 00:12:46,299 --> 00:12:50,233 How could this guy, using a camera on his telescope 227 00:12:50,235 --> 00:12:51,902 for the very first time, 228 00:12:51,904 --> 00:12:55,706 pointing at a single random galaxy in the sky, 229 00:12:55,708 --> 00:12:58,375 have found this exploding star 230 00:12:58,377 --> 00:13:00,510 in the first hour of its explosion? 231 00:13:00,512 --> 00:13:03,914 It's almost too good to be true." 232 00:13:03,916 --> 00:13:05,783 Alex filippenko and his team 233 00:13:05,785 --> 00:13:09,586 monitored the brightening light from the star. 234 00:13:09,588 --> 00:13:13,591 What we found when studying the light from buso's supernova 235 00:13:13,593 --> 00:13:18,862 is that the object brightened very quickly for a short time 236 00:13:18,864 --> 00:13:22,132 when a shock wave, a supersonic wave 237 00:13:22,134 --> 00:13:27,071 going through the star burst out through the surface. 238 00:13:27,073 --> 00:13:28,806 And when it gets right to the edge, 239 00:13:28,808 --> 00:13:32,743 that huge amount of energy is released as a tremendous flash. 240 00:13:32,745 --> 00:13:35,346 That is the moment of shock breakout. 241 00:13:38,150 --> 00:13:40,351 The monstrous shock wave travels 242 00:13:40,353 --> 00:13:43,420 at nearly 30,000 miles per hour, 243 00:13:43,422 --> 00:13:46,090 bursting through the surface of the star 244 00:13:46,092 --> 00:13:47,357 and ripping it to pieces. 245 00:13:47,359 --> 00:13:48,893 Fire! 246 00:13:53,999 --> 00:13:58,035 We see shock waves from explosions on earth. 247 00:13:58,037 --> 00:14:01,905 They can travel through gas, liquid, and solid, 248 00:14:01,907 --> 00:14:05,442 including the layers of a collapsing star. 249 00:14:07,980 --> 00:14:09,713 This observation of the shock wave 250 00:14:09,715 --> 00:14:12,450 reaching the surface of the star was incredibly important, 251 00:14:12,452 --> 00:14:14,718 because Victor managed to catch a star 252 00:14:14,720 --> 00:14:16,787 the moment is actually went supernova. 253 00:14:16,789 --> 00:14:21,325 That is something that is a scientific treasure. 254 00:14:21,327 --> 00:14:25,462 The shock breakout is like cosmic gold dust, 255 00:14:25,464 --> 00:14:29,867 a flash in the pan that lasts 20 minutes ... 256 00:14:29,869 --> 00:14:33,138 just the blink of an eye on astronomical time scales. 257 00:14:35,140 --> 00:14:37,741 but what sets the shock wave off? 258 00:14:37,743 --> 00:14:40,945 Is it just a question of bounce? 259 00:14:40,947 --> 00:14:43,414 A supernova shock wave can be explained 260 00:14:43,416 --> 00:14:46,084 with the help of a basketball. 261 00:14:46,086 --> 00:14:48,019 The thing about an exploding star 262 00:14:48,021 --> 00:14:50,621 is that the nuclear reactions go out in the core, 263 00:14:50,623 --> 00:14:52,889 and then the outer layers fall in 264 00:14:52,891 --> 00:14:56,026 at incredibly high speeds toward the inner core, 265 00:14:56,028 --> 00:14:59,029 and then it rebounds and bounces out. 266 00:14:59,031 --> 00:15:02,633 And what gives it so much energy is the structure of the star. 267 00:15:04,637 --> 00:15:07,505 As the dying star burns through its fuel, 268 00:15:07,507 --> 00:15:10,508 it creates layers of different elements ... 269 00:15:10,510 --> 00:15:12,109 heavy iron at the core, 270 00:15:12,111 --> 00:15:15,913 with layers and layers of lighter elements above. 271 00:15:15,915 --> 00:15:17,715 So, let's say there was only one layer, 272 00:15:17,717 --> 00:15:20,584 and there was a rebound, like dropping this ball. 273 00:15:20,586 --> 00:15:22,319 It doesn't bounce very high. 274 00:15:22,321 --> 00:15:24,521 But let's say it's organized like a star, 275 00:15:24,523 --> 00:15:26,257 where the heavy thing is at the bottom, 276 00:15:26,259 --> 00:15:27,858 the lighter thing is at the top. 277 00:15:27,860 --> 00:15:30,461 And let's see how this rebound goes. 278 00:15:37,002 --> 00:15:40,403 now, that was a rebound. 279 00:15:40,405 --> 00:15:42,807 The tennis ball launches off the basketball 280 00:15:42,809 --> 00:15:45,209 because energy from the basketball's bounce 281 00:15:45,211 --> 00:15:47,811 is transferred upwards. 282 00:15:47,813 --> 00:15:50,749 The same thing happens in a collapsing star, 283 00:15:50,751 --> 00:15:53,417 but with many more layers. 284 00:15:53,419 --> 00:15:56,755 All the different elements collapse inwards. 285 00:15:56,757 --> 00:15:59,489 They heavier layers hit the dense core first, 286 00:15:59,491 --> 00:16:02,292 passing energy to the lighter ones. 287 00:16:02,294 --> 00:16:06,163 And this creates the shock wave. 288 00:16:06,165 --> 00:16:09,633 But this energy isn't enough to propel the shock wave 289 00:16:09,635 --> 00:16:12,769 all the way out of the star. 290 00:16:12,771 --> 00:16:15,172 The problem is, when we looked at this in detail 291 00:16:15,174 --> 00:16:17,842 using computer models, it didn't work. 292 00:16:17,844 --> 00:16:19,376 The shock wave seemed to stall. 293 00:16:19,378 --> 00:16:21,378 We couldn't get the star to explode. 294 00:16:21,380 --> 00:16:25,250 For 50 years, we couldn't figure out what we were missing. 295 00:16:25,252 --> 00:16:28,385 Scientists suspect something else is involved, 296 00:16:28,387 --> 00:16:32,390 something that's almost impossible to detect. 297 00:16:32,392 --> 00:16:36,594 Could there be a ghost in the supernova machine? 298 00:16:53,278 --> 00:16:56,347 When stars as big as betelgeuse die, 299 00:16:56,349 --> 00:16:59,216 their explosive deaths send shock waves 300 00:16:59,218 --> 00:17:02,686 that travel trillions of miles through space. 301 00:17:02,688 --> 00:17:04,821 But how these shock waves are created 302 00:17:04,823 --> 00:17:08,425 has puzzled scientists for decades. 303 00:17:08,427 --> 00:17:09,827 Time and time again, 304 00:17:09,829 --> 00:17:12,229 when we actually went back to our computers and our theories 305 00:17:12,231 --> 00:17:15,232 and looked at how supernovas should work, they just didn't. 306 00:17:15,234 --> 00:17:18,835 They shouldn't actually explode. 307 00:17:18,837 --> 00:17:20,304 In computer models, 308 00:17:20,306 --> 00:17:23,507 the bounce from falling gas on a collapsing core 309 00:17:23,509 --> 00:17:27,244 can't drive the shock wave all the way out of the star. 310 00:17:27,246 --> 00:17:30,381 Something crucial is missing. 311 00:17:30,383 --> 00:17:33,049 What we needed from inside the core of the star 312 00:17:33,051 --> 00:17:35,252 was a completely new source of energy, 313 00:17:35,254 --> 00:17:37,721 something to actually make that final push 314 00:17:37,723 --> 00:17:40,925 to get the star to rip itself apart. 315 00:17:40,927 --> 00:17:42,726 Scientists suspect this energy 316 00:17:42,728 --> 00:17:48,332 comes from an enigmatic particle called a neutrino. 317 00:17:48,334 --> 00:17:51,067 Neutrinos are a type of fundamental physical particle 318 00:17:51,069 --> 00:17:54,406 that are still a little bit mysterious to us. 319 00:17:54,408 --> 00:17:55,807 They're almost like ghost particles. 320 00:17:55,809 --> 00:17:58,409 They travel through us without touching us at all. 321 00:18:02,014 --> 00:18:05,215 Like particles of light, photons, 322 00:18:05,217 --> 00:18:08,752 neutrinos carry no electrical charge. 323 00:18:08,754 --> 00:18:12,823 But unlike photons, they can pass through stars, 324 00:18:12,825 --> 00:18:15,159 planets, and us. 325 00:18:15,161 --> 00:18:17,428 So where do they come from? 326 00:18:17,430 --> 00:18:19,697 Scientists predict the source 327 00:18:19,699 --> 00:18:22,899 is the star itself. 328 00:18:22,901 --> 00:18:24,701 In the middle of the core of the star, 329 00:18:24,703 --> 00:18:27,438 you're producing something called a neutron star ... 330 00:18:27,440 --> 00:18:30,107 an amazing, super-compressed ball of matter 331 00:18:30,109 --> 00:18:32,976 only about 10 miles across. 332 00:18:32,978 --> 00:18:35,779 As the iron core of a star collapses, 333 00:18:35,781 --> 00:18:39,049 the atoms are crushed together. 334 00:18:39,051 --> 00:18:43,988 Protons and electrons are forced to combine to form neutrons. 335 00:18:43,990 --> 00:18:48,392 This process releases vast quantities of neutrinos. 336 00:18:50,997 --> 00:18:53,998 despite being one of the most abundant particles 337 00:18:54,000 --> 00:18:55,398 in the universe, 338 00:18:55,400 --> 00:18:59,070 neutrinos are notoriously difficult to detect. 339 00:19:03,743 --> 00:19:08,345 but in 1987, scientists got lucky. 340 00:19:08,347 --> 00:19:12,851 A massive star went supernova in a nearby galaxy. 341 00:19:15,621 --> 00:19:19,491 In 1987, astronomers got a wonderful gift. 342 00:19:19,493 --> 00:19:22,959 It was the first naked-eye supernova 343 00:19:22,961 --> 00:19:25,162 in about 400 years. 344 00:19:25,164 --> 00:19:28,231 And we had lots and lots of telescopes 345 00:19:28,233 --> 00:19:29,767 with which to study it 346 00:19:29,769 --> 00:19:32,737 throughout the electromagnetic spectrum. 347 00:19:34,974 --> 00:19:37,641 But the 1987a supernova 348 00:19:37,643 --> 00:19:42,312 set off another scientific instrument ... 349 00:19:42,314 --> 00:19:47,784 a neutrino detector hidden deep below a mountain in Japan. 350 00:19:47,786 --> 00:19:51,055 There was a burst of neutrinos associated with the supernova. 351 00:19:51,057 --> 00:19:53,990 This was just a fantastic surprise, 352 00:19:53,992 --> 00:19:56,526 a wonderful added bonus. 353 00:19:56,528 --> 00:20:00,397 When you're trying to capture and measure elusive particles 354 00:20:00,399 --> 00:20:01,598 that you don't even know 355 00:20:01,600 --> 00:20:02,932 if you're gonna get a signal or not, 356 00:20:02,934 --> 00:20:05,269 and you're sitting there waiting at your detector, 357 00:20:05,271 --> 00:20:07,470 and then suddenly, this thing just lights up? 358 00:20:07,472 --> 00:20:10,874 How exciting is that? 359 00:20:10,876 --> 00:20:12,942 This was definitive proof 360 00:20:12,944 --> 00:20:17,280 that supernovas emit neutrinos. 361 00:20:17,282 --> 00:20:20,951 Neutrinos may be ghostly, but they don't gently drift out 362 00:20:20,953 --> 00:20:23,420 from the collapsing core of the star. 363 00:20:23,422 --> 00:20:26,356 They have to burst out. 364 00:20:26,358 --> 00:20:29,560 The amazing thing about the inside of a supernova explosion 365 00:20:29,562 --> 00:20:33,496 is that it's getting dense enough to trap neutrinos. 366 00:20:33,498 --> 00:20:35,765 All of a sudden now, there's pressure. 367 00:20:38,337 --> 00:20:40,504 When scientists add neutrino pressure 368 00:20:40,506 --> 00:20:42,239 to the computer models, 369 00:20:42,241 --> 00:20:45,509 the shock wave gets farther away from the core, 370 00:20:45,511 --> 00:20:48,779 but the supernova still doesn't explode. 371 00:20:48,781 --> 00:20:53,650 One more ingredient is needed ... disorder. 372 00:20:53,652 --> 00:20:57,654 Because stars are round, it's tempting to think 373 00:20:57,656 --> 00:21:02,458 that a supernova explosion too will be round. 374 00:21:02,460 --> 00:21:07,331 But supernova aren't perfectly symmetric. 375 00:21:07,333 --> 00:21:08,732 Energy from the shock wave 376 00:21:08,734 --> 00:21:11,201 and the neutrinos heats up the gas 377 00:21:11,203 --> 00:21:14,938 in chaotic, unpredictable ways. 378 00:21:14,940 --> 00:21:18,675 They cause hot bubbles to rise and then come back down 379 00:21:18,677 --> 00:21:19,877 and rise and come back down. 380 00:21:19,879 --> 00:21:22,078 It's sort of a boiling motion. 381 00:21:22,080 --> 00:21:25,482 This imparts a lot of turbulence into the gas. 382 00:21:25,484 --> 00:21:27,751 Researchers add all the ingredients 383 00:21:27,753 --> 00:21:30,887 to a supercomputer and let it run. 384 00:21:32,958 --> 00:21:36,760 this simulation is the result. 385 00:21:36,762 --> 00:21:40,230 When the shock wave stalls on its way out of the core, 386 00:21:40,232 --> 00:21:44,501 it creates tiny ripples in the falling elements above. 387 00:21:44,503 --> 00:21:48,438 The ripples become giant sloshing waves. 388 00:21:48,440 --> 00:21:51,775 Neutrinos bursting out from the neutron star 389 00:21:51,777 --> 00:21:54,044 heat the layers of elements above it, 390 00:21:54,046 --> 00:21:57,181 causing them to bubble and rise. 391 00:21:59,985 --> 00:22:02,586 eventually, the intense heat combines 392 00:22:02,588 --> 00:22:05,455 with the pressures of these violent motions, 393 00:22:05,457 --> 00:22:09,392 driving the shock wave out like an interstellar Tsunami, 394 00:22:09,394 --> 00:22:12,329 smashing the star to pieces. 395 00:22:21,807 --> 00:22:23,874 it turns out, stars do explode. 396 00:22:23,876 --> 00:22:25,608 Nature knows what it's doing. 397 00:22:25,610 --> 00:22:28,278 It was the computer models. They were too simple. 398 00:22:28,280 --> 00:22:30,480 Once the models became more complex, 399 00:22:30,482 --> 00:22:33,483 starting taking into account all the dimensions of a star, 400 00:22:33,485 --> 00:22:36,152 the supernova models started to explode. 401 00:22:36,154 --> 00:22:38,889 We think of supernova as effectively simple events ... 402 00:22:38,891 --> 00:22:41,558 very violent events, but simple. 403 00:22:41,560 --> 00:22:43,960 And this is just a beautiful illustration of the fact 404 00:22:43,962 --> 00:22:46,029 that when you dig deep down, 405 00:22:46,031 --> 00:22:48,165 these are really exquisitely complex 406 00:22:48,167 --> 00:22:52,235 and elegant fluid-dynamics problems. 407 00:22:52,237 --> 00:22:53,770 The shock wave travels through 408 00:22:53,772 --> 00:22:58,041 all the layers of the elements that make up the massive star. 409 00:22:58,043 --> 00:23:00,977 It takes hours for it to reach the outer edge 410 00:23:00,979 --> 00:23:03,713 and trigger the first flash of light, 411 00:23:03,715 --> 00:23:07,984 but this flash is just the start of the supernova. 412 00:23:07,986 --> 00:23:11,855 The spectacular light show is just beginning, 413 00:23:11,857 --> 00:23:16,761 a light show that will create elements essential for life. 414 00:23:40,819 --> 00:23:43,220 We see the light from supernovas 415 00:23:43,222 --> 00:23:46,622 all the way across the cosmos, 416 00:23:46,624 --> 00:23:51,027 but what we're seeing isn't the explosive first flash. 417 00:23:51,029 --> 00:23:56,766 That's just the opening act before the main event. 418 00:23:56,768 --> 00:23:59,102 Supernova are some of the most energetic events 419 00:23:59,104 --> 00:24:02,039 in the universe. 420 00:24:02,041 --> 00:24:04,774 The galaxy has hundreds of billions of stars in it, 421 00:24:04,776 --> 00:24:06,443 and yet the death of this one star 422 00:24:06,445 --> 00:24:09,712 can outshine those hundred billions of stars. 423 00:24:09,714 --> 00:24:11,782 One of the interesting things about supernovas 424 00:24:11,784 --> 00:24:14,317 is that when the star explodes, 425 00:24:14,319 --> 00:24:17,320 it's not at its maximum brightness immediately. 426 00:24:17,322 --> 00:24:19,589 It takes days and weeks. 427 00:24:25,464 --> 00:24:29,866 The first flash is the explosive part of a supernova, 428 00:24:29,868 --> 00:24:34,739 blasting tons of matter into space around the dying star. 429 00:24:34,741 --> 00:24:39,609 But it's this ejected debris that makes supernovas shine, 430 00:24:39,611 --> 00:24:43,947 often glowing brighter than the explosion itself. 431 00:24:46,885 --> 00:24:50,687 heavy elements are formed inside the cores of massive stars, 432 00:24:50,689 --> 00:24:53,957 and even heavier elements are formed 433 00:24:53,959 --> 00:24:57,361 during the explosion event itself. 434 00:25:00,298 --> 00:25:02,032 As the star rips apart, 435 00:25:02,034 --> 00:25:05,035 temperatures and pressures are immense. 436 00:25:05,037 --> 00:25:08,171 The elements that once made up the layers of the star 437 00:25:08,173 --> 00:25:11,608 fuse together, creating heavier elements. 438 00:25:11,610 --> 00:25:15,178 And some of these are radioactive. 439 00:25:15,180 --> 00:25:17,714 The decay of these radioactive elements 440 00:25:17,716 --> 00:25:19,116 actually produces light. 441 00:25:19,118 --> 00:25:22,452 That gives it more brightness over a longer period of time 442 00:25:22,454 --> 00:25:24,388 than it otherwise would have. 443 00:25:26,926 --> 00:25:29,459 This cloud of brightly shining matter 444 00:25:29,461 --> 00:25:33,396 can last for months and sometimes years. 445 00:25:35,800 --> 00:25:38,869 these supernova remnants light up the universe 446 00:25:38,871 --> 00:25:41,605 like cosmic fireworks. 447 00:25:43,475 --> 00:25:45,876 these are oftentimes beautiful, 448 00:25:45,878 --> 00:25:47,878 beautiful things in the night sky, 449 00:25:47,880 --> 00:25:49,679 because they are ... you see remnants 450 00:25:49,681 --> 00:25:53,683 of everything that the supernova has generated in its explosion. 451 00:25:56,221 --> 00:25:59,824 But these aren't just pretty light show. 452 00:25:59,826 --> 00:26:02,692 They are crucial for the evolution of galaxies 453 00:26:02,694 --> 00:26:05,896 and solar systems. 454 00:26:05,898 --> 00:26:08,099 Necessary ingredients ... 455 00:26:08,101 --> 00:26:11,435 things like sulfur, things like phosphorous, 456 00:26:11,437 --> 00:26:14,504 things like carbon and oxygen. 457 00:26:14,506 --> 00:26:18,375 And even the elements necessary to build a rocky planet 458 00:26:18,377 --> 00:26:20,043 like the earth itself 459 00:26:20,045 --> 00:26:22,512 can only be formed inside of massive stars 460 00:26:22,514 --> 00:26:26,850 and can only be spread through supernova explosions. 461 00:26:32,324 --> 00:26:34,925 NASA's chandra space telescope studies 462 00:26:34,927 --> 00:26:38,395 one of the most famous objects in the milky way... 463 00:26:41,733 --> 00:26:45,669 ...supernova remnant cassiopeia "a." 464 00:26:47,806 --> 00:26:51,608 cassiopeia "a" is a relatively young supernova remnant, 465 00:26:51,610 --> 00:26:54,478 not even 400 years old. 466 00:26:54,480 --> 00:26:56,613 Ever since its star exploded, 467 00:26:56,615 --> 00:26:59,683 cassiopeia "a" has been expanding. 468 00:26:59,685 --> 00:27:03,286 It is now 29 light years across. 469 00:27:03,288 --> 00:27:06,223 Using x-rays, the chandra space telescope 470 00:27:06,225 --> 00:27:10,294 has looked inside this massive cloud. 471 00:27:10,296 --> 00:27:13,296 New observations of cassiopeia "a" have shown us 472 00:27:13,298 --> 00:27:15,565 that the ejecta from this event 473 00:27:15,567 --> 00:27:18,902 has created tens of thousands of times 474 00:27:18,904 --> 00:27:24,174 the earth mass of really important materials. 475 00:27:24,176 --> 00:27:28,845 Filippenko: 70,000 earth masses worth of iron, 476 00:27:28,847 --> 00:27:33,183 and a whopping 1 million earth masses worth of oxygen. 477 00:27:33,185 --> 00:27:35,986 Now, these are elements that are important to life, 478 00:27:35,988 --> 00:27:37,920 to earth, to us. 479 00:27:37,922 --> 00:27:40,991 The iron in your blood, the calcium in your bones, 480 00:27:40,993 --> 00:27:44,461 these were forged in supernova explosions 481 00:27:44,463 --> 00:27:47,597 billions of years ago. 482 00:27:47,599 --> 00:27:49,399 The new study reveals 483 00:27:49,401 --> 00:27:54,070 something even more extraordinary. 484 00:27:54,072 --> 00:27:56,740 Cassiopeia "a" also holds 485 00:27:56,742 --> 00:27:59,609 the building blocks of life. 486 00:27:59,611 --> 00:28:02,545 We see every single atom necessary for DNA 487 00:28:02,547 --> 00:28:05,082 in that one supernova remnant. 488 00:28:05,084 --> 00:28:07,718 One of the really cool things about supernovas 489 00:28:07,720 --> 00:28:11,555 is that our very existence depends on them. 490 00:28:11,557 --> 00:28:15,291 Our DNA molecules are made up of material 491 00:28:15,293 --> 00:28:18,162 that was once in the core of a massive star. 492 00:28:18,164 --> 00:28:19,362 So somewhere out there, 493 00:28:19,364 --> 00:28:21,898 some unnamed supernova eons ago, 494 00:28:21,900 --> 00:28:26,236 led to you watching me talking about supernovas. 495 00:28:26,238 --> 00:28:27,770 That's awesome. 496 00:28:30,442 --> 00:28:33,176 Supernovas create all the elements needed 497 00:28:33,178 --> 00:28:37,113 to build everything from planets to humans. 498 00:28:37,115 --> 00:28:40,116 Dying stars give us life. 499 00:28:40,118 --> 00:28:43,986 It's a cosmic recycling process. 500 00:28:43,988 --> 00:28:49,759 But what if some stars are faking their own deaths? 501 00:29:05,944 --> 00:29:07,544 For thousands of years, 502 00:29:07,546 --> 00:29:10,280 humans have wondered about bright, new stars 503 00:29:10,282 --> 00:29:12,348 appearing in the sky, 504 00:29:12,350 --> 00:29:16,686 and supernovas continue to surprise us. 505 00:29:16,688 --> 00:29:19,355 Our fascination with supernova has grown 506 00:29:19,357 --> 00:29:22,892 with each discovery of a new event. 507 00:29:22,894 --> 00:29:24,495 The study of supernovas 508 00:29:24,497 --> 00:29:26,830 is really going through a revolution. 509 00:29:26,832 --> 00:29:28,698 We're learning more and more. 510 00:29:28,700 --> 00:29:33,637 We're better able to find them and observe them. 511 00:29:33,639 --> 00:29:37,707 And it turns out not all supernovas are the same. 512 00:29:37,709 --> 00:29:40,310 Some are the result of white dwarf stars 513 00:29:40,312 --> 00:29:42,178 stealing matter from a twin 514 00:29:42,180 --> 00:29:45,048 and growing so big, they explode. 515 00:29:52,657 --> 00:29:55,392 all other supernovas are massive stars 516 00:29:55,394 --> 00:29:58,662 collapsing under their own gravity. 517 00:30:02,000 --> 00:30:04,567 but just to confuse things further, 518 00:30:04,569 --> 00:30:07,536 scientists also categorize supernovas 519 00:30:07,538 --> 00:30:10,473 based on whether hydrogen is present. 520 00:30:10,475 --> 00:30:13,076 Type I are missing hydrogen. 521 00:30:13,078 --> 00:30:15,612 Type ii are not. 522 00:30:15,614 --> 00:30:18,481 So, astronomers have these categories for supernova, 523 00:30:18,483 --> 00:30:19,816 and that might make you think 524 00:30:19,818 --> 00:30:21,885 that we've got them all figured out, 525 00:30:21,887 --> 00:30:24,420 but here's a spoiler ... we don't. 526 00:30:28,426 --> 00:30:31,094 September 2014. 527 00:30:31,096 --> 00:30:34,431 A supernova appears in the great bear constellation 528 00:30:34,433 --> 00:30:38,301 and glows brightly for 600 days. 529 00:30:38,303 --> 00:30:40,837 When scientists check the records, 530 00:30:40,839 --> 00:30:42,906 they discover a supernova was sighted 531 00:30:42,908 --> 00:30:47,042 at the exact same spot 60 years before. 532 00:30:47,044 --> 00:30:49,512 A star seemed to be dying 533 00:30:49,514 --> 00:30:53,449 over and over again. 534 00:30:53,451 --> 00:30:55,118 This particular star was something 535 00:30:55,120 --> 00:30:56,519 we had never seen before, 536 00:30:56,521 --> 00:30:59,989 and it seemed so strange, it was almost impossible. 537 00:30:59,991 --> 00:31:03,126 It actually brightened and faded about five times 538 00:31:03,128 --> 00:31:05,963 over a several-year time span. 539 00:31:05,965 --> 00:31:09,465 And each of these brightenings would have qualified 540 00:31:09,467 --> 00:31:13,002 as a supernova in terms of its total energy. 541 00:31:13,004 --> 00:31:17,072 It's the supernova that would never die. 542 00:31:17,074 --> 00:31:20,343 So how could it happen with the same star again 543 00:31:20,345 --> 00:31:22,011 and again and again? 544 00:31:22,013 --> 00:31:26,282 This really did seem to be a zombie star. 545 00:31:26,284 --> 00:31:30,353 How can a star have multiple deaths? 546 00:31:30,355 --> 00:31:34,958 The answer lies in its sheer size. 547 00:31:34,960 --> 00:31:37,227 We're talking about a very massive star here, 548 00:31:37,229 --> 00:31:39,962 about 100 or more times the mass of the sun, 549 00:31:39,964 --> 00:31:42,365 really the upper limit of what a star can be 550 00:31:42,367 --> 00:31:44,101 without tearing itself apart. 551 00:31:46,771 --> 00:31:48,704 This star is so big 552 00:31:48,706 --> 00:31:52,375 that reactions in the core are off the charts. 553 00:31:52,377 --> 00:31:54,577 And these energetic reactions 554 00:31:54,579 --> 00:31:57,847 produce more than just elements. 555 00:31:57,849 --> 00:32:00,183 It can actually get so hot in the interior 556 00:32:00,185 --> 00:32:01,851 that you produce gamma rays. 557 00:32:01,853 --> 00:32:06,122 This is the most energetic form of light imaginable. 558 00:32:06,124 --> 00:32:08,057 The gamma rays' extreme energy 559 00:32:08,059 --> 00:32:10,060 supports the dying star 560 00:32:10,062 --> 00:32:13,797 against the crushing forces of gravity pushing in, 561 00:32:13,799 --> 00:32:18,268 but it also affects the gamma rays themselves. 562 00:32:18,270 --> 00:32:21,403 Gamma rays above a certain energy can do something weird. 563 00:32:21,405 --> 00:32:24,207 They can transform themselves into matter. 564 00:32:24,209 --> 00:32:27,076 This transformation affects the delicate balance 565 00:32:27,078 --> 00:32:31,080 between gravity and energy in the star's core. 566 00:32:31,082 --> 00:32:32,949 The core starts to collapse. 567 00:32:32,951 --> 00:32:35,951 When it collapses, it generates more energy. 568 00:32:35,953 --> 00:32:38,821 This energy leaks out of the outer layers of the star, 569 00:32:38,823 --> 00:32:42,492 and we sudden brightening of the star, a pulse. 570 00:32:44,495 --> 00:32:47,497 filippenko: And it brightens and fades a bunch of times, 571 00:32:47,499 --> 00:32:50,299 each time releasing some material 572 00:32:50,301 --> 00:32:53,169 but not quite exploding. 573 00:32:53,171 --> 00:32:56,172 It's almost supernova levels of energy. 574 00:32:56,174 --> 00:33:00,376 That's what fooled the astronomers at first. 575 00:33:00,378 --> 00:33:03,312 Eventually, the pulsations stop. 576 00:33:03,314 --> 00:33:07,584 The star calms down, ready to live another day. 577 00:33:09,454 --> 00:33:13,455 astronomers still don't know if this "zombie" supernova 578 00:33:13,457 --> 00:33:15,525 has finally died. 579 00:33:15,527 --> 00:33:18,528 Filippenko: We think that we've seen this final explosion 580 00:33:18,530 --> 00:33:20,129 of the zombie supernova, 581 00:33:20,131 --> 00:33:22,598 but honestly, we're not sure yet. 582 00:33:22,600 --> 00:33:25,202 Maybe it's currently fading, but next year, 583 00:33:25,204 --> 00:33:30,072 it'll surprise us and brighten once again. 584 00:33:30,074 --> 00:33:33,742 But this isn't the only mysterious supernova 585 00:33:33,744 --> 00:33:36,746 that has scientists scratching their heads. 586 00:33:36,748 --> 00:33:42,152 Meet supernova sn 2014c. 587 00:33:42,154 --> 00:33:45,656 Supernova 2014c was a bit of a strange one. 588 00:33:45,658 --> 00:33:49,225 It was initially classified as a type I. 589 00:33:52,563 --> 00:33:56,699 Astronomers classify supernovas as type I or type ii, 590 00:33:56,701 --> 00:34:01,236 depending on whether they contain hydrogen. 591 00:34:01,238 --> 00:34:03,639 If you break the light up coming in from a supernova 592 00:34:03,641 --> 00:34:06,309 into its individual colors, you take its spectrum. 593 00:34:06,311 --> 00:34:09,312 If there's the signature of hydrogen in that spectrum, 594 00:34:09,314 --> 00:34:11,314 that's a type ii supernova. 595 00:34:11,316 --> 00:34:15,118 If the hydrogen is missing, that's type I. 596 00:34:15,120 --> 00:34:18,921 When sn 2014c was first discovered, 597 00:34:18,923 --> 00:34:21,124 hydrogen was missing. 598 00:34:21,126 --> 00:34:24,593 But then later on, hydrogen suddenly appeared, 599 00:34:24,595 --> 00:34:27,597 and we realized, no, this is actually a type ii. 600 00:34:27,599 --> 00:34:29,599 It's sort of a chameleon supernova. 601 00:34:29,601 --> 00:34:33,470 It went from being type I, free of hydrogen, 602 00:34:33,472 --> 00:34:35,938 to type ii, full of hydrogen. 603 00:34:35,940 --> 00:34:37,272 How can a supernova change 604 00:34:37,274 --> 00:34:40,076 from not having hydrogen to having hydrogen? 605 00:34:44,682 --> 00:34:48,284 The chameleon supernova baffled scientists, 606 00:34:48,286 --> 00:34:52,021 until they looked around it with the nustar X-ray telescope. 607 00:34:54,559 --> 00:34:56,759 it revealed that the star had spewed out 608 00:34:56,761 --> 00:34:59,562 a huge amount of hydrogen. 609 00:34:59,564 --> 00:35:02,232 But this wasn't during the supernova event. 610 00:35:02,234 --> 00:35:05,368 This was many decades before. 611 00:35:05,370 --> 00:35:09,238 This star is very massive and relatively unstable. 612 00:35:09,240 --> 00:35:12,642 And it underwent an explosive event about a century ago ... 613 00:35:12,644 --> 00:35:14,644 not big enough to be a supernova, 614 00:35:14,646 --> 00:35:17,179 but it expelled all the hydrogen in that star, 615 00:35:17,181 --> 00:35:20,049 so it was a type I. 616 00:35:20,051 --> 00:35:23,786 Then the star exploded again, 617 00:35:23,788 --> 00:35:26,722 but this event was massive. 618 00:35:26,724 --> 00:35:29,726 Filippenko: The ejected gases from the supernova 619 00:35:29,728 --> 00:35:32,595 smashed into the hydrogen 620 00:35:32,597 --> 00:35:35,065 that had been previously expelled 621 00:35:35,067 --> 00:35:38,735 by the star before exploding. 622 00:35:38,737 --> 00:35:41,937 And once the ejected gases crashed in, 623 00:35:41,939 --> 00:35:45,074 well, that caused that hydrogen gas to glow. 624 00:35:45,076 --> 00:35:47,076 And then we saw hydrogen in the spectrum, 625 00:35:47,078 --> 00:35:50,613 and it became a type ii. 626 00:35:50,615 --> 00:35:53,549 The more scientists learn about supernovas, 627 00:35:53,551 --> 00:35:56,285 the more complicated they become. 628 00:36:00,959 --> 00:36:02,358 So, now it seems that we've seen 629 00:36:02,360 --> 00:36:04,360 every type of supernova that must be possible. 630 00:36:04,362 --> 00:36:06,829 And we've seen some very, very strange ones, 631 00:36:06,831 --> 00:36:09,632 things that are zombies or chameleons. 632 00:36:09,634 --> 00:36:13,436 But there has to be something out there that's stranger still. 633 00:36:15,840 --> 00:36:17,306 There may be a whole zoo 634 00:36:17,308 --> 00:36:20,309 of undiscovered supernovas out there ... 635 00:36:20,311 --> 00:36:23,980 exciting, perplexing, deadly. 636 00:36:23,982 --> 00:36:26,783 And they may have been shaping the solar system, 637 00:36:26,785 --> 00:36:30,420 and earth, since the beginning of time. 638 00:36:48,473 --> 00:36:51,406 The death of a giant star ... 639 00:36:51,408 --> 00:36:54,944 it's more than just an epic explosion. 640 00:36:54,946 --> 00:36:57,412 It unleashes a storm of elements 641 00:36:57,414 --> 00:37:00,550 that form the universe around us. 642 00:37:00,552 --> 00:37:03,619 There's a wonderful cycle of death and life in the universe. 643 00:37:03,621 --> 00:37:06,221 Individual stars are born, they live their lives, 644 00:37:06,223 --> 00:37:09,358 and they die. 645 00:37:09,360 --> 00:37:11,561 When they die, they enrich the universe 646 00:37:11,563 --> 00:37:14,563 with new atoms and new chemicals. 647 00:37:14,565 --> 00:37:18,968 Those go on to form new stars and new planets. 648 00:37:18,970 --> 00:37:21,436 Dust blows out from the explosion, 649 00:37:21,438 --> 00:37:26,442 forming spectacular interstellar clouds ... nebulas, 650 00:37:26,444 --> 00:37:32,248 the nursery of stars, including our solar system. 651 00:37:32,250 --> 00:37:34,650 One of the biggest pieces of evidence we have 652 00:37:34,652 --> 00:37:36,719 is that supernova themselves 653 00:37:36,721 --> 00:37:41,123 produce some very rare radioactive elements, 654 00:37:41,125 --> 00:37:44,059 radioactive elements that we can still see 655 00:37:44,061 --> 00:37:46,796 embedded in the solar system today. 656 00:37:46,798 --> 00:37:51,466 It's sprinkled like radioactive salt. 657 00:37:51,468 --> 00:37:53,203 These radioactive elements, 658 00:37:53,205 --> 00:37:57,807 found right across our planet, are only produced in supernovas, 659 00:37:57,809 --> 00:38:00,610 proof that earth and the solar system 660 00:38:00,612 --> 00:38:02,678 were created from exploding stars 661 00:38:02,680 --> 00:38:06,749 4.6 billion years ago. 662 00:38:06,751 --> 00:38:09,586 But supernovas may have affected earth 663 00:38:09,588 --> 00:38:12,888 much more recently. 664 00:38:12,890 --> 00:38:14,223 We do have some evidence 665 00:38:14,225 --> 00:38:17,293 that there was a particular supernova explosion 666 00:38:17,295 --> 00:38:21,430 that rained down on the earth about 2 1/2 million years ago 667 00:38:21,432 --> 00:38:25,501 and deposited a specific kind of iron. 668 00:38:25,503 --> 00:38:28,437 Iron-60 is a radioactive element 669 00:38:28,439 --> 00:38:30,773 made during supernova. 670 00:38:30,775 --> 00:38:35,711 It's found in fossils from around this time. 671 00:38:35,713 --> 00:38:39,849 We see it embedded in the crust of the earth itself. 672 00:38:39,851 --> 00:38:43,719 We see pieces of evidence. 673 00:38:43,721 --> 00:38:45,988 2 1/2 million years ago, 674 00:38:45,990 --> 00:38:49,391 life on earth changed dramatically. 675 00:38:49,393 --> 00:38:53,863 Africa lost much of its forests to grasslands, 676 00:38:53,865 --> 00:38:57,399 various plants and animals went extinct, 677 00:38:57,401 --> 00:39:00,402 and many new species appeared. 678 00:39:00,404 --> 00:39:03,539 But how could a supernova change life on earth 679 00:39:03,541 --> 00:39:08,344 so dramatically without destroying it completely? 680 00:39:11,216 --> 00:39:12,481 when a supernova explodes, 681 00:39:12,483 --> 00:39:15,184 it produces a tremendous amount of gamma rays. 682 00:39:15,186 --> 00:39:17,419 And if that supernova is close enough to the earth, 683 00:39:17,421 --> 00:39:22,091 you could imagine it really doing damage to our atmosphere. 684 00:39:22,093 --> 00:39:24,427 Some of the incredible amounts of energy 685 00:39:24,429 --> 00:39:26,162 found in a supernova 686 00:39:26,164 --> 00:39:30,366 leave the star in gamma-ray beams. 687 00:39:30,368 --> 00:39:33,035 If that beam were to be pointing at earth, 688 00:39:33,037 --> 00:39:35,704 then the ozone layer could be harmed. 689 00:39:52,590 --> 00:39:54,523 it affects our ozone layer, 690 00:39:54,525 --> 00:39:57,259 which affects the amount of U.V. radiation 691 00:39:57,261 --> 00:40:00,462 that can hit the surface, which can trigger mutations, 692 00:40:00,464 --> 00:40:03,265 which can trigger different forms of vegetation, 693 00:40:03,267 --> 00:40:05,935 which can kill off algae in the in the oceans. 694 00:40:05,937 --> 00:40:08,871 There's a lot of potential effects. 695 00:40:08,873 --> 00:40:12,942 Mutations drive evolution in all forms of life, 696 00:40:12,944 --> 00:40:17,279 from the simplest to the most complex. 697 00:40:17,281 --> 00:40:20,015 So it's conceivable that, as a result 698 00:40:20,017 --> 00:40:23,018 of a relatively nearby supernova, 699 00:40:23,020 --> 00:40:25,955 the mutations led to early hominids 700 00:40:25,957 --> 00:40:28,357 and then homo sapiens. 701 00:40:28,359 --> 00:40:32,428 That actually affected the evolution of life on earth, 702 00:40:32,430 --> 00:40:34,630 and humans in particular. 703 00:40:37,902 --> 00:40:40,969 Is it just coincidence that ancient humans 704 00:40:40,971 --> 00:40:43,839 started to appear at around this time? 705 00:40:43,841 --> 00:40:50,112 Or was our humanity sparked by a supernova? 706 00:40:50,114 --> 00:40:52,982 Supernovas seem to be an example of violent death. 707 00:40:52,984 --> 00:40:55,785 But there were so many steps in the formation 708 00:40:55,787 --> 00:40:58,053 of our solar system, the formation of you, 709 00:40:58,055 --> 00:41:00,456 that are intimately related to supernova. 710 00:41:00,458 --> 00:41:01,624 They created the chemical elements 711 00:41:01,626 --> 00:41:03,392 and maybe even drove our evolution. 712 00:41:03,394 --> 00:41:05,327 We very likely would not exist 713 00:41:05,329 --> 00:41:07,929 if it were not for exploding stars. 714 00:41:07,931 --> 00:41:12,001 From the elements in our DNA to the solar system 715 00:41:12,003 --> 00:41:16,405 and the world we live in, supernovas have made us. 716 00:41:16,407 --> 00:41:18,274 The reason we study astronomy at all 717 00:41:18,276 --> 00:41:21,211 is to actually answer the question as to who we are, 718 00:41:21,213 --> 00:41:23,345 where we came from, and we're going. 719 00:41:23,347 --> 00:41:25,280 And with supernovas, that's all wrapped up 720 00:41:25,282 --> 00:41:27,416 into this amazing story. 721 00:41:27,418 --> 00:41:31,086 Literally, you are the death of a star. 722 00:41:31,088 --> 00:41:33,756 These epic explosions 723 00:41:33,758 --> 00:41:38,361 are unlocking the biggest mysteries of our existence. 724 00:41:38,363 --> 00:41:41,029 The story of supernova have become more interesting 725 00:41:41,031 --> 00:41:42,898 and more complex with every discovery. 726 00:41:42,900 --> 00:41:44,900 So as we learn more, we discover 727 00:41:44,902 --> 00:41:47,436 what it is that we don't understand yet. 728 00:41:47,438 --> 00:41:50,439 The cosmos is something that can seem so distant 729 00:41:50,441 --> 00:41:53,976 and so unreachable, but stars are the things, 730 00:41:53,978 --> 00:41:55,644 the brilliant light to the cosmos, 731 00:41:55,646 --> 00:42:00,049 with which we have the most strong connection. 732 00:42:00,051 --> 00:42:03,719 There are so many things to love about exploding stars. 733 00:42:03,721 --> 00:42:08,057 They are what give rise to the elements of life. 734 00:42:10,061 --> 00:42:13,462 from the most intimate to the most gigantic scales imaginable, 735 00:42:13,464 --> 00:42:18,067 supernovas are the key to all of that. 736 00:42:18,069 --> 00:42:20,268 So, thank you, supernova. 737 00:42:20,270 --> 00:42:21,470 Hats off to you. 738 00:42:21,472 --> 00:42:24,808 Now, please, stay very, very far away. 57857