Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:07,220 --> 00:00:10,290 Neutron stars. 2 00:00:10,290 --> 00:00:12,360 Super heavy, super dense. 3 00:00:12,360 --> 00:00:13,760 Extreme. 4 00:00:13,760 --> 00:00:18,000 Gravitational, magnetic, hot. 5 00:00:18,000 --> 00:00:19,670 Scary. 6 00:00:19,670 --> 00:00:22,640 They destroy planets. 7 00:00:22,640 --> 00:00:25,410 They can even destroy stars. 8 00:00:25,410 --> 00:00:27,810 A cosmic conundrum. 9 00:00:27,810 --> 00:00:30,710 They're very, very massive, 10 00:00:30,710 --> 00:00:32,650 but they're also really, really small. 11 00:00:32,650 --> 00:00:34,980 Tiny cosmic super powers 12 00:00:34,990 --> 00:00:40,260 long overshadowed by black holes... Until now. 14 00:00:40,260 --> 00:00:42,360 Neutron stars have been thrust very much 15 00:00:42,360 --> 00:00:44,830 to the forefront of modern astrophysics. 16 00:00:44,830 --> 00:00:48,200 The world's astronomers know that something is happening. 17 00:00:48,200 --> 00:00:51,200 Something's up, it's new, and it's different. 18 00:00:51,200 --> 00:00:55,270 Neutron stars are the most interesting 19 00:00:55,270 --> 00:00:58,640 astrophysical object in the universe. 20 00:00:58,640 --> 00:01:01,310 Now firmly in the limelight, 21 00:01:01,310 --> 00:01:06,450 neutron stars, creators of our most precious elements 22 00:01:06,450 --> 00:01:08,250 and life itself. 23 00:01:08,250 --> 00:01:11,250 Captions by vitac... www.vitac.com 24 00:01:11,250 --> 00:01:14,290 captions paid for by discovery communications 25 00:01:26,600 --> 00:01:30,340 130 million light years form earth, 26 00:01:30,340 --> 00:01:35,280 a galaxy called "NGC-4993." 27 00:01:35,280 --> 00:01:40,050 Two dead stars trapped in a rapidly diminishing spiral. 28 00:01:46,620 --> 00:01:50,020 It's like listening to the ringing of the cosmos itself. 29 00:01:50,030 --> 00:01:52,130 The sound of that collision, if you will, 30 00:01:52,130 --> 00:01:56,660 imprinted on the fabric of space and time itself. 31 00:01:56,670 --> 00:02:02,300 Livingston, Louisiana, the advanced LiGO observatory. 32 00:02:02,310 --> 00:02:05,310 Its mission... To detect gravitational waves 33 00:02:05,310 --> 00:02:06,940 generated in space. 34 00:02:09,210 --> 00:02:12,710 A gravitational wave is a distortion of space time 35 00:02:12,720 --> 00:02:14,120 that's caused by, usually, 36 00:02:14,120 --> 00:02:18,120 some kind of very traumatic gravitational event. 37 00:02:18,120 --> 00:02:20,820 Events such as a supernova, 38 00:02:20,820 --> 00:02:24,360 or the collision of black holes, or massive stars. 39 00:02:26,200 --> 00:02:31,570 2015... LiGO makes history by detecting gravitational waves 40 00:02:31,570 --> 00:02:33,130 for the first time, 41 00:02:33,140 --> 00:02:37,470 100 years after Einstein's prediction. 42 00:02:37,470 --> 00:02:42,580 It's the signature of the crash of black holes. 43 00:02:42,580 --> 00:02:44,650 It's almost like listening to the sound 44 00:02:44,650 --> 00:02:47,820 of a distant car crash that you didn't witness. 45 00:02:47,820 --> 00:02:49,680 But you're so clever, 46 00:02:49,690 --> 00:02:52,950 and the sound of this car crash is such a unique signature, 47 00:02:52,960 --> 00:02:55,690 that you are able to use your computers to model 48 00:02:55,690 --> 00:03:00,660 exactly the type of cars that must have collided together. 49 00:03:00,660 --> 00:03:06,800 In 2017, LiGO picks up a different kind of signal. 51 00:03:06,800 --> 00:03:09,440 The unfolding of the August 2017 event 52 00:03:09,440 --> 00:03:12,110 was nothing short of extraordinary. 53 00:03:12,110 --> 00:03:15,610 So, the signal comes in, and the signal is strange. 54 00:03:15,610 --> 00:03:18,510 It has a long-lasting signal. 55 00:03:18,520 --> 00:03:20,050 It's over 100 seconds. 56 00:03:20,050 --> 00:03:22,950 Less than two seconds later, a gamma-ray telescope 57 00:03:22,950 --> 00:03:25,520 detected a flash of gamma rays 58 00:03:25,520 --> 00:03:27,960 from that same part of the sky. 59 00:03:27,960 --> 00:03:31,090 And very quickly, the world's astronomers 60 00:03:31,090 --> 00:03:33,030 know that something is happening. 61 00:03:33,030 --> 00:03:36,060 Something's up, it's new, and it's different. 62 00:03:39,140 --> 00:03:42,500 This combination of a long gravitational wave signal 63 00:03:42,510 --> 00:03:46,710 and a blaze of gamma rays... 64 00:03:46,710 --> 00:03:49,210 Acts as a beacon for astronomers. 65 00:03:51,880 --> 00:03:53,680 When they saw this event, 66 00:03:53,680 --> 00:03:55,820 they sent out a worldwide alert 67 00:03:55,820 --> 00:03:58,050 to astronomers across the globe, saying, 68 00:03:58,050 --> 00:04:01,060 "hey, we saw something interesting, 69 00:04:01,060 --> 00:04:03,830 and it came from a particular patch of sky. 70 00:04:03,830 --> 00:04:05,890 Then, all the chatter started 71 00:04:05,900 --> 00:04:07,960 amongst the astronomical community, 72 00:04:07,960 --> 00:04:10,270 and everyone starting pointing their telescopes 73 00:04:10,270 --> 00:04:13,330 at this one part of the sky. 74 00:04:13,340 --> 00:04:15,900 Within hours, thousands of astronomers 75 00:04:15,910 --> 00:04:19,040 and physicists across the globe are frantically 76 00:04:19,040 --> 00:04:23,210 collecting data on this mysterious event. 77 00:04:23,210 --> 00:04:25,380 There is not just the gravitational waves, 78 00:04:25,380 --> 00:04:27,080 there is not just the gamma rays. 79 00:04:27,080 --> 00:04:29,380 There's a visible light, there's infrared light, 80 00:04:29,390 --> 00:04:31,090 there's ultraviolet light. 81 00:04:31,090 --> 00:04:34,390 And all these signals together tell us a story. 82 00:04:34,390 --> 00:04:36,560 And this was the very first time 83 00:04:36,560 --> 00:04:39,230 we've seen these two multiple messengers at once... 84 00:04:39,230 --> 00:04:41,800 Gravitational waves and regular light. 85 00:04:41,800 --> 00:04:44,800 So, that was a groundbreaking moment for astronomy. 86 00:04:48,470 --> 00:04:50,170 Scientists realize 87 00:04:50,170 --> 00:04:53,270 this isn't another black-hole collision. 88 00:04:53,280 --> 00:04:56,210 This is something different. 89 00:04:56,210 --> 00:04:58,780 When you see an explosion in the universe, 90 00:04:58,780 --> 00:05:01,180 there aren't exactly a lot of candidates. 91 00:05:01,180 --> 00:05:04,450 There's not a lot of things in the universe that blow up. 92 00:05:06,660 --> 00:05:10,430 But the length of the signal is the smoking gun. 93 00:05:10,430 --> 00:05:13,630 The collision of two black holes was quick. 94 00:05:13,630 --> 00:05:19,600 This one was the longer, slower, death end-spiral 95 00:05:19,600 --> 00:05:21,770 of two neutron stars. 96 00:05:21,770 --> 00:05:25,610 Spiraling in, closer and closer, speeding up. 97 00:05:25,610 --> 00:05:27,280 And then, when they finally collide, 98 00:05:27,280 --> 00:05:29,780 when they finally touch, releasing a tremendous 99 00:05:29,780 --> 00:05:32,710 amount of energy into the surrounding system. 100 00:05:34,980 --> 00:05:37,890 The collision throws up huge clouds of matter, 101 00:05:37,890 --> 00:05:41,160 which may have slowed down the light very slightly. 102 00:05:41,160 --> 00:05:43,420 The light and gravitational waves 103 00:05:43,430 --> 00:05:46,760 travel for 130 million years, 104 00:05:46,760 --> 00:05:51,200 arriving at earth almost simultaneously. 105 00:05:51,200 --> 00:05:55,740 It's the first time astronomers see neutron stars collide. 106 00:05:55,740 --> 00:05:58,340 They call it a "kilonova." 107 00:05:58,340 --> 00:06:00,910 And this spectacular cosmic event 108 00:06:00,910 --> 00:06:03,640 doesn't just release energy. 109 00:06:03,650 --> 00:06:05,910 The aftermath of this neutron-star collision, 110 00:06:05,920 --> 00:06:08,980 this kilonova, created a tremendous amount of debris, 111 00:06:08,990 --> 00:06:10,990 which blasted out into space. 112 00:06:10,990 --> 00:06:12,990 And this may finally have provided us 113 00:06:12,990 --> 00:06:15,590 the evidence of where some very special 114 00:06:15,590 --> 00:06:17,860 heavy elements are created. 115 00:06:17,860 --> 00:06:22,800 Through the destruction of a neutron star comes the seeds 116 00:06:22,800 --> 00:06:25,900 for the essential ingredients of life itself. 117 00:06:25,900 --> 00:06:29,500 We breathe oxygen molecules... O2. 118 00:06:29,510 --> 00:06:31,640 Water is hydrogen and oxygen. 119 00:06:31,640 --> 00:06:35,110 Most of our body is made up of carbon compounds 120 00:06:35,110 --> 00:06:37,010 that include nitrogen, phosphorus. 121 00:06:37,010 --> 00:06:39,680 One of the big questions in science 122 00:06:39,680 --> 00:06:42,180 over the history of humanity has been, 123 00:06:42,190 --> 00:06:45,020 "what are the origins of these elements?" 124 00:06:45,020 --> 00:06:49,220 And it turns out that neutron stars play a critical role 125 00:06:49,230 --> 00:06:51,830 in creating many of the heavy elements. 126 00:06:55,060 --> 00:07:00,640 Most of the elements on earth are made in stars. 127 00:07:00,640 --> 00:07:03,270 But how the heaviest elements are made 128 00:07:03,270 --> 00:07:07,010 has been one of science's longest-running mysteries. 129 00:07:08,980 --> 00:07:10,780 For a long time, we knew there was a problem 130 00:07:10,780 --> 00:07:12,450 with making these heavier atoms... 131 00:07:12,450 --> 00:07:15,820 Things like gold and platinum, all the way out towards uranium. 132 00:07:15,820 --> 00:07:17,520 And really, the most energetic thing we had 133 00:07:17,520 --> 00:07:19,990 in the universe was supernova explosions. 134 00:07:19,990 --> 00:07:23,060 So, they had to be created somehow in supernovas. 135 00:07:23,060 --> 00:07:26,090 But when scientists ran computer simulations, 136 00:07:26,100 --> 00:07:30,830 virtual supernovas failed to forge these oversized atoms. 137 00:07:34,040 --> 00:07:37,970 In 2016, astronomer Edo Berger explained 138 00:07:37,970 --> 00:07:40,610 a potential solution to the mystery. 139 00:07:44,310 --> 00:07:46,110 If you open any one of these books, 140 00:07:46,120 --> 00:07:49,150 and flip to the page that tells you where gold came from, 141 00:07:49,150 --> 00:07:51,920 it will tell you that gold came from supernova explosions. 142 00:07:57,960 --> 00:08:02,000 But it was becoming clear that the textbooks were out of date. 143 00:08:07,140 --> 00:08:09,700 To form heavy elements requires a lot of neutrons, 144 00:08:09,710 --> 00:08:12,110 and so, another possible theory was that 145 00:08:12,110 --> 00:08:14,880 the heaviest elements were produced in the mergers 146 00:08:14,880 --> 00:08:18,150 of two neutron stars in a binary system. 147 00:08:18,150 --> 00:08:20,720 But at the time, no one had actually seen 148 00:08:20,720 --> 00:08:22,750 a neutron-star collision. 149 00:08:22,750 --> 00:08:25,020 It was difficult to convince the community 150 00:08:25,020 --> 00:08:27,090 that this was a potential channel 151 00:08:27,090 --> 00:08:29,390 for the production of heavy elements. 152 00:08:29,390 --> 00:08:31,930 The proof is to actually see this process 153 00:08:31,930 --> 00:08:33,190 happening in the universe. 154 00:08:35,160 --> 00:08:37,130 The 2017 kilonova 155 00:08:37,130 --> 00:08:39,700 provides the perfect opportunity. 156 00:08:39,700 --> 00:08:43,570 It generates thousands of hours of data. 157 00:08:43,570 --> 00:08:46,110 Scientists notice a pattern... 158 00:08:46,110 --> 00:08:51,380 Subtle changes in the color of the kilonova remnants. 159 00:08:51,380 --> 00:08:54,180 In space, when you have an event that is very bright, 160 00:08:54,180 --> 00:08:55,720 it emits a certain amount of light, 161 00:08:55,720 --> 00:08:57,520 and it emits it at certain wavelengths... 162 00:08:57,520 --> 00:08:59,950 What we think of as colors. 163 00:08:59,960 --> 00:09:02,960 Different colors in a pyrotechnics display 164 00:09:02,960 --> 00:09:06,530 indicate the use of different chemicals in fireworks. 165 00:09:06,530 --> 00:09:10,000 In the same way, scientists can uncover the elements 166 00:09:10,000 --> 00:09:14,940 in the kilonova by the colors in the explosion. 167 00:09:14,940 --> 00:09:18,810 As the kilonova turns red, they realize it's the result 168 00:09:18,810 --> 00:09:20,940 of newly-created heavy elements 169 00:09:20,940 --> 00:09:24,050 starting to absorb blue light. 170 00:09:24,050 --> 00:09:26,410 As we watched this remnant change... 171 00:09:26,420 --> 00:09:29,520 The explosion change in color, expand and cool... 172 00:09:29,520 --> 00:09:32,490 We could estimate what sort of elements were being produced. 173 00:09:34,790 --> 00:09:36,890 The light from the debris shifts 174 00:09:36,890 --> 00:09:40,700 from blue and Violet to red and infrared. 175 00:09:40,700 --> 00:09:43,460 The color change provides clues 176 00:09:43,470 --> 00:09:46,930 about the presence of certain heavy metals. 177 00:09:54,910 --> 00:09:57,850 Well, this neutron-star collision, this kilonova, 178 00:09:57,850 --> 00:10:00,920 produced brightness and a color spectrum 179 00:10:00,920 --> 00:10:04,350 that are consistent with models of predictions 180 00:10:04,350 --> 00:10:06,520 that produce gold and platinum. 181 00:10:08,960 --> 00:10:11,860 This model is called "The R-process," 182 00:10:11,860 --> 00:10:14,830 short for "rapid neutron capture." 183 00:10:14,830 --> 00:10:17,200 That is a bit of a complicated term 184 00:10:17,200 --> 00:10:20,670 that describes how we make atoms heavier than iron. 185 00:10:20,670 --> 00:10:23,000 You need a really neutron-rich environment. 186 00:10:23,010 --> 00:10:25,810 And as you might imagine, a neutron-star collision 187 00:10:25,810 --> 00:10:28,380 is a very neutron-rich environment. 188 00:10:28,380 --> 00:10:30,140 If these models are correct... 189 00:10:30,150 --> 00:10:32,350 And this blows me away... 190 00:10:32,350 --> 00:10:34,250 This collision, this kilonova, 191 00:10:34,250 --> 00:10:38,450 produced several dozen times the mass of the Earth 192 00:10:38,450 --> 00:10:40,490 in just gold. 193 00:10:47,130 --> 00:10:50,530 The 2017 kilonova not only reveals 194 00:10:50,530 --> 00:10:52,800 the origin of key elements, 195 00:10:52,800 --> 00:10:56,500 it sheds light on the neutron star's interior... 196 00:10:56,510 --> 00:10:59,610 The strongest material in the universe 197 00:10:59,610 --> 00:11:01,440 creating a magnetic field 198 00:11:01,440 --> 00:11:05,210 a trillion times greater than that of earth. 199 00:11:18,460 --> 00:11:23,730 Two neutron stars caught in a death spiral. 200 00:11:23,730 --> 00:11:27,800 This massive kilonova explosion not only sheds light 201 00:11:27,800 --> 00:11:29,840 on the creation of heavy elements, 202 00:11:29,840 --> 00:11:32,170 such as gold and platinum, 203 00:11:32,180 --> 00:11:35,410 it also provides scientists with a unique insight 204 00:11:35,410 --> 00:11:39,710 into one of the most mysterious objects in the universe. 205 00:11:39,720 --> 00:11:42,780 Trying to imagine what a neutron star is really like 206 00:11:42,790 --> 00:11:44,590 really challenges our imagination. 207 00:11:44,590 --> 00:11:46,850 It also challenges our theoretical physics. 208 00:11:46,860 --> 00:11:49,360 We have to go to our computer models, our mathematics, 209 00:11:49,360 --> 00:11:53,330 to have some estimate of what this might be like. 210 00:11:53,330 --> 00:11:55,860 Now, scientists don't have to rely 211 00:11:55,870 --> 00:11:57,430 on their imaginations. 212 00:11:58,770 --> 00:12:02,470 They can use hard data from the kilonova 213 00:12:02,470 --> 00:12:05,640 to work out what makes neutron stars tick. 214 00:12:10,080 --> 00:12:12,150 There's so much information we got from observing 215 00:12:12,150 --> 00:12:15,620 that one single event, that one colliding neutron star pair. 216 00:12:15,620 --> 00:12:18,120 Now, for the first time, we have an accurate estimate 217 00:12:18,120 --> 00:12:20,550 of the mass of a neutron star, and the diameter. 218 00:12:20,560 --> 00:12:22,260 We can finally begin to piece together 219 00:12:22,260 --> 00:12:25,830 how neutron stars really work. 220 00:12:25,830 --> 00:12:30,030 They calculate the diameter is just 12.4 miles, 221 00:12:30,030 --> 00:12:34,770 1 mile less than the length of Manhattan. 222 00:12:34,770 --> 00:12:37,240 Nailing down any physical characteristic 223 00:12:37,240 --> 00:12:38,570 is really important. 224 00:12:38,570 --> 00:12:39,870 And if there's gonna be one, 225 00:12:39,880 --> 00:12:42,510 the radius is a big one, because from there, 226 00:12:42,510 --> 00:12:44,280 if you know the mass, you can get the density. 227 00:12:44,280 --> 00:12:45,910 And if you know the overall density, 228 00:12:45,920 --> 00:12:47,650 you can start to figure out what the layering 229 00:12:47,650 --> 00:12:49,580 inside of a neutron star is like. 230 00:12:53,560 --> 00:12:57,120 For physicists, the interior of a neutron star 231 00:12:57,130 --> 00:13:01,560 is one of the most intriguing places in the universe. 232 00:13:01,560 --> 00:13:03,130 You have to realize that the conditions 233 00:13:03,130 --> 00:13:05,230 inside a neutron star are very, very different 234 00:13:05,230 --> 00:13:07,330 than the conditions that exist here on earth. 235 00:13:07,340 --> 00:13:09,400 We're talking about material that's so dense 236 00:13:09,410 --> 00:13:12,710 that even the nuclei of atoms can't hold together. 237 00:13:12,710 --> 00:13:14,880 With a neutron star, you're taking something 238 00:13:14,880 --> 00:13:17,280 that weighs more than the sun, 239 00:13:17,280 --> 00:13:20,980 and compressing it down to be smaller than a city. 240 00:13:20,980 --> 00:13:23,780 It's so dense that, if you tried to put it on the ground, 241 00:13:23,790 --> 00:13:25,750 it would fall right through the Earth. 242 00:13:27,720 --> 00:13:30,720 High density means high gravity... 243 00:13:30,730 --> 00:13:35,530 Gravity 200 billion times greater than on earth. 244 00:13:35,530 --> 00:13:37,130 Imagine climbing up on a table on the surface 245 00:13:37,130 --> 00:13:39,000 of a neutron star and jumping off. 246 00:13:39,000 --> 00:13:41,200 You're gonna just get flattened instantly, 247 00:13:41,200 --> 00:13:43,770 and just spread out on that surface. 248 00:13:43,770 --> 00:13:48,180 So, don't even think about trying to do push-ups. 249 00:13:48,180 --> 00:13:49,980 Added to the intense gravity 250 00:13:49,980 --> 00:13:52,680 are hugely powerful magnetic fields, 251 00:13:52,680 --> 00:13:54,780 awesome X-ray radiation, 252 00:13:54,780 --> 00:13:58,550 electric fields 30 million times more powerful 253 00:13:58,550 --> 00:14:00,550 than lightning bolts, 254 00:14:00,560 --> 00:14:04,630 and blizzards of high-energy particles. 255 00:14:04,630 --> 00:14:08,660 This isn't a good neighborhood for a space traveler. 256 00:14:11,630 --> 00:14:14,540 If you were to find yourself in the vicinity 257 00:14:14,540 --> 00:14:18,170 of a neutron star, it's gonna be bad news. 258 00:14:18,170 --> 00:14:20,170 First, you would be torn apart 259 00:14:20,180 --> 00:14:22,840 by the incredibly strong magnetic fields. 260 00:14:22,850 --> 00:14:27,720 Then, the X-ray radiation would blast you to a crisp. 261 00:14:27,720 --> 00:14:29,550 And as it pulled you closer, 262 00:14:29,550 --> 00:14:31,950 its intense gravity would stretch out 263 00:14:31,950 --> 00:14:35,520 your atoms and molecules into a long, thin stream. 264 00:14:35,520 --> 00:14:38,390 You would build your speed faster and faster, 265 00:14:38,390 --> 00:14:41,500 and then, you would finally impact the surface, 266 00:14:41,500 --> 00:14:43,230 splatter across it. 267 00:14:43,230 --> 00:14:46,230 And that process would release as much energy 268 00:14:46,240 --> 00:14:47,370 as a nuclear bomb. 269 00:14:50,440 --> 00:14:53,640 If I had the choice between falling into a neutron star 270 00:14:53,640 --> 00:14:56,880 versus a black hole, I think I'd pick the black hole. 271 00:14:56,880 --> 00:14:58,980 'Cause I don't really feel like being torn apart 272 00:14:58,980 --> 00:15:01,620 by a magnetic field and blasted with x-rays. 273 00:15:06,020 --> 00:15:10,560 On a cosmic scale, neutron stars may be pint-sized, 274 00:15:10,560 --> 00:15:13,290 but they sure pack a serious punch. 275 00:15:13,300 --> 00:15:15,800 The secret to all this pent-up power 276 00:15:15,800 --> 00:15:20,330 is what's going on below the surface. 277 00:15:20,340 --> 00:15:22,870 Armed with the new kilonova data, 278 00:15:22,870 --> 00:15:24,610 we can now take a virtual journey 279 00:15:24,610 --> 00:15:27,340 into the heart of a neutron star. 280 00:15:27,340 --> 00:15:31,610 First, we must pass through its atmosphere. 281 00:15:31,610 --> 00:15:32,950 Now, it's not like the Earth's atmosphere, 282 00:15:32,950 --> 00:15:34,780 which goes up, like, a 100 miles. 283 00:15:34,780 --> 00:15:38,220 On a neutron star, the atmosphere is about this deep, 284 00:15:38,220 --> 00:15:43,390 and it's extremely dense compared to the air around us. 285 00:15:43,390 --> 00:15:48,030 Below the compressed atmosphere is a crust of ionized iron, 286 00:15:48,030 --> 00:15:50,430 a mixture of crystal iron nuclei, 287 00:15:50,430 --> 00:15:53,770 and free-flowing iron electrons. 288 00:15:53,770 --> 00:15:55,740 Now, the gravity's so strong 289 00:15:55,740 --> 00:15:58,170 that it's almost perfectly smooth. 290 00:15:58,170 --> 00:15:59,640 The biggest mountains on the surface 291 00:15:59,640 --> 00:16:02,040 are gonna be less than a quarter of an inch high. 292 00:16:02,040 --> 00:16:07,480 A quarter-inch mountain range may sound odd... 293 00:16:07,480 --> 00:16:11,790 But things get even stranger as we go below the surface. 294 00:16:13,890 --> 00:16:17,860 This is home to the strongest material in the universe. 295 00:16:20,930 --> 00:16:27,100 It's so weird, scientists liken it to nuclear pasta. 296 00:16:27,100 --> 00:16:30,070 As we dive beneath the crust of a neutron star, 297 00:16:30,070 --> 00:16:33,340 the neutrons themselves start to glue themselves together 298 00:16:33,340 --> 00:16:35,280 into exotic shapes. 299 00:16:35,280 --> 00:16:40,550 First, they form clumps that look something like gnocchi, 300 00:16:40,550 --> 00:16:43,620 then, deeper, the gnocchi glue themselves together 301 00:16:43,620 --> 00:16:47,590 to form long strands that look like spaghetti. 302 00:16:47,590 --> 00:16:50,190 Even deeper, the spaghetti fuse together 303 00:16:50,190 --> 00:16:53,660 to form sheets of lasagna. 304 00:16:53,660 --> 00:16:56,630 And then, finally, the lasagna fuse together 305 00:16:56,630 --> 00:17:01,240 to become a uniform mass, but with holes in it. 306 00:17:01,240 --> 00:17:03,670 So, it looks like penne. 307 00:17:03,670 --> 00:17:07,140 This is pasta, nuclear style, 308 00:17:07,140 --> 00:17:08,410 simmering at a temperature 309 00:17:08,410 --> 00:17:11,180 of over one million degrees Fahrenheit. 310 00:17:11,180 --> 00:17:14,950 Extreme gravity bends, squeezes, stretches, 311 00:17:14,950 --> 00:17:17,890 and buckles neutrons, creating a material 312 00:17:17,890 --> 00:17:22,190 100,000 billion times denser than iron. 313 00:17:22,190 --> 00:17:25,990 But the journey gets even more extreme. 314 00:17:26,000 --> 00:17:29,830 Even deeper is more mysterious and harder to understand. 315 00:17:29,830 --> 00:17:31,870 The core of a neutron star... 316 00:17:31,870 --> 00:17:34,600 Which is very far away from these layers, 317 00:17:34,600 --> 00:17:36,700 which we call the "nuclear pasta"... 318 00:17:36,710 --> 00:17:39,970 Is perhaps the most exotic form of matter. 319 00:17:39,980 --> 00:17:44,140 So exotic it might be the last bastion of matter 320 00:17:44,150 --> 00:17:48,480 before complete gravitational collapse into a black hole. 321 00:17:50,490 --> 00:17:52,790 Data from NASA's Chandra observatory 322 00:17:52,790 --> 00:17:56,160 suggests the core is made up of a super fluid... 323 00:17:56,160 --> 00:17:59,960 A bizarre friction-free state of matter. 324 00:17:59,960 --> 00:18:02,660 Similar super fluids produced in the lab 325 00:18:02,670 --> 00:18:04,700 exhibit strange properties, 326 00:18:04,700 --> 00:18:07,330 such as the ability to flow upwards 327 00:18:07,340 --> 00:18:11,270 and escape airtight containers. 328 00:18:11,270 --> 00:18:13,570 Although our knowledge of the star's interior 329 00:18:13,580 --> 00:18:15,810 is still hazy, there's not mystery 330 00:18:15,810 --> 00:18:17,950 about its dazzling birth. 331 00:18:17,950 --> 00:18:22,050 Forged into life during the most spectacular event 332 00:18:22,050 --> 00:18:23,980 the universe has to offer... 333 00:18:23,990 --> 00:18:27,490 The explosive death of a massive star. 334 00:18:38,270 --> 00:18:40,270 Neutron stars... 335 00:18:40,270 --> 00:18:46,840 Manhattan-sized, but with a mass twice that of our sun. 336 00:18:46,840 --> 00:18:52,910 So dense a teaspoon of their matter weighs a billion tons. 337 00:18:52,920 --> 00:18:57,250 Mind-blowing objects that arrive with a bang. 338 00:18:57,250 --> 00:18:59,220 Neutron stars spark into life 339 00:18:59,220 --> 00:19:01,190 amid the death of their parent star. 340 00:19:01,190 --> 00:19:03,890 They're the ultimate story of resurrection, 341 00:19:03,890 --> 00:19:06,560 or of life from death. 342 00:19:06,560 --> 00:19:10,630 It's all part of a cosmic cycle. 343 00:19:10,630 --> 00:19:14,970 Stars are born from giant clouds of very cold gas. 344 00:19:14,970 --> 00:19:18,010 Those clouds collapse under their own gravity, 345 00:19:18,010 --> 00:19:21,140 and the density of the core at the center of the collapse 346 00:19:21,140 --> 00:19:22,310 starts to increase. 347 00:19:27,420 --> 00:19:31,350 A star is a huge nuclear fusion reactor. 348 00:19:31,350 --> 00:19:33,920 The force of its gravity is so powerful 349 00:19:33,920 --> 00:19:35,690 that it fuses atoms together 350 00:19:35,690 --> 00:19:40,590 to make progressively heavier and heavier elements. 351 00:19:40,600 --> 00:19:43,730 The star fuses hydrogen into helium. 352 00:19:43,730 --> 00:19:46,930 Once it exhausts its hydrogen, then, if it's massive enough, 353 00:19:46,940 --> 00:19:49,370 it can start fusing helium at its core. 354 00:19:51,810 --> 00:19:54,470 Fusion continues, forming carbon, 355 00:19:54,480 --> 00:20:00,450 oxygen, nitrogen, all the way up to iron. 356 00:20:00,450 --> 00:20:02,780 Once a star has iron in the core, 357 00:20:02,790 --> 00:20:04,750 it's almost like you've poisoned it, 358 00:20:04,750 --> 00:20:08,420 because this extinguishes the nuclear reactions 359 00:20:08,420 --> 00:20:09,760 in the core of the star. 360 00:20:09,760 --> 00:20:13,990 You fuse something into iron, and you get no energy. 361 00:20:14,000 --> 00:20:15,830 All of a sudden, there's nothing to support 362 00:20:15,830 --> 00:20:17,100 the crush of gravity. 363 00:20:17,100 --> 00:20:18,800 No radiation pressure pushing out 364 00:20:18,800 --> 00:20:22,770 means no pressure keeping the outer regions from falling in, 365 00:20:22,770 --> 00:20:24,640 and that's what they do. 366 00:20:24,640 --> 00:20:27,740 As the star collapses in its death throes, 367 00:20:27,740 --> 00:20:31,180 its core becomes the wildest, craziest, 368 00:20:31,180 --> 00:20:35,420 and freakiest pressure cooker in the whole universe. 369 00:20:37,550 --> 00:20:40,020 The ingredients are all in place. 370 00:20:40,020 --> 00:20:44,890 It's time to start cooking up a neutron star. 371 00:20:44,890 --> 00:20:47,630 If we were to scale up an atomic nucleus 372 00:20:47,630 --> 00:20:49,500 to be the size of a baseball, 373 00:20:49,500 --> 00:20:53,670 in a normal atom, the nearest electron would be 374 00:20:53,670 --> 00:20:55,700 way over in those trees, 375 00:20:55,700 --> 00:20:57,800 but in the extreme conditions that lead to 376 00:20:57,810 --> 00:20:59,970 the formation of a neutron star, 377 00:20:59,980 --> 00:21:04,010 those electrons can be pushed closer to the nucleus. 378 00:21:04,010 --> 00:21:07,180 They can come zipping in from any direction. 379 00:21:07,180 --> 00:21:10,080 And if the temperatures and pressures are high enough, 380 00:21:10,090 --> 00:21:12,050 they can even strike the nucleus 381 00:21:12,050 --> 00:21:14,960 and enter it, and they can hit a proton. 382 00:21:14,960 --> 00:21:19,490 And when they do, they become converted into more neutrons. 383 00:21:19,500 --> 00:21:22,130 So, in the formation of one of these objects, 384 00:21:22,130 --> 00:21:24,460 the protons and electrons disappear, 385 00:21:24,470 --> 00:21:27,470 and you're left with almost entirely pure neutrons, 386 00:21:27,470 --> 00:21:30,540 with nothing to stop them from cramming together 387 00:21:30,540 --> 00:21:33,410 and filling up this entire baseball 388 00:21:33,410 --> 00:21:38,950 with neutrons leading to incredibly high densities. 389 00:21:38,950 --> 00:21:40,310 With the sea of electrons 390 00:21:40,320 --> 00:21:42,880 now absorbed in the atomic nuclei, 391 00:21:42,890 --> 00:21:47,820 the matter in the stars can now press together a lot tighter. 392 00:21:47,820 --> 00:21:51,020 It's like squeezing 300 million tons of mass 393 00:21:51,030 --> 00:21:54,360 into a single sugar cube. 394 00:21:54,360 --> 00:21:56,130 As the star collapses, 395 00:21:56,130 --> 00:21:59,300 enormous amounts of gas fall towards the core. 396 00:22:01,970 --> 00:22:06,470 The core is small in size, but huge in mass. 397 00:22:06,480 --> 00:22:09,280 Billions of tons of gas bounce off of it, 398 00:22:09,280 --> 00:22:12,750 then erupt into the biggest fireworks display 399 00:22:12,750 --> 00:22:18,220 in the cosmos... A supernova. 401 00:22:18,220 --> 00:22:19,520 It's massive. 402 00:22:19,520 --> 00:22:20,620 It's bright. 403 00:22:20,620 --> 00:22:21,920 It's imposing. 404 00:22:21,920 --> 00:22:25,030 Supernova are among the most dramatic events 405 00:22:25,030 --> 00:22:26,490 to happen in the universe. 406 00:22:26,500 --> 00:22:28,130 A single star dying... 407 00:22:28,130 --> 00:22:33,200 One star dying... Can outshine an entire galaxy. 408 00:22:37,040 --> 00:22:39,510 And arising out of this cataclysm, 409 00:22:39,510 --> 00:22:42,940 a new and very strange cosmic entity. 410 00:22:45,910 --> 00:22:48,780 When the smoke finally clears from the supernova explosion, 411 00:22:48,780 --> 00:22:51,520 you're left with one of the most real, fascinating, 412 00:22:51,520 --> 00:22:54,690 unbelievable monsters of the entire universe. 413 00:22:54,690 --> 00:22:56,360 Humans have been witnessing supernovas 414 00:22:56,360 --> 00:22:57,990 for thousands of years, 415 00:22:57,990 --> 00:23:00,730 but we're only now just starting to understand 416 00:23:00,730 --> 00:23:03,530 what we've truly been witnessing... 417 00:23:03,530 --> 00:23:07,470 The births of neutron stars. 418 00:23:07,470 --> 00:23:10,570 But while supernovas are big and bright, 419 00:23:10,570 --> 00:23:13,110 neutron stars are small, 420 00:23:13,110 --> 00:23:16,280 and many don't even give off light. 421 00:23:16,280 --> 00:23:20,250 So, how many neutron stars are out there? 422 00:23:20,250 --> 00:23:23,820 We know of about 2,000 neutron stars in our galaxy, 423 00:23:23,820 --> 00:23:25,420 but there probably are many, many, more. 424 00:23:25,420 --> 00:23:28,260 I'm talking about tens of millions in the milky way alone, 425 00:23:28,260 --> 00:23:32,530 and certainly billions throughout the universe. 426 00:23:32,530 --> 00:23:38,330 Neutron stars may be small, but some give themselves away, 427 00:23:38,330 --> 00:23:41,800 shooting beams across the universe... 428 00:23:41,800 --> 00:23:47,070 Unmistakable, pulsing strobes of a cosmic lighthouse. 429 00:24:00,760 --> 00:24:05,260 Our knowledge of neutron stars is expanding fast. 430 00:24:07,800 --> 00:24:09,900 But we didn't even know they existed 431 00:24:09,900 --> 00:24:13,470 until a lucky discovery just over 50 years ago. 432 00:24:15,500 --> 00:24:18,640 Cambridge, the Mullard radio observatory, 433 00:24:18,640 --> 00:24:20,540 Jocelyn bell, grad student, 434 00:24:20,540 --> 00:24:24,110 operating the new radio telescope. 435 00:24:24,110 --> 00:24:27,210 Scanning the sky, doing all sorts of cool astronomy stuff, 436 00:24:27,220 --> 00:24:32,650 and sees what she calls "a bit of scruff" in the data. 437 00:24:32,650 --> 00:24:34,090 This scruff is a short 438 00:24:34,090 --> 00:24:37,420 but constantly repeating burst of radiation 439 00:24:37,430 --> 00:24:41,700 originating 1,000 light years from earth. 440 00:24:41,700 --> 00:24:44,830 It's so stable and regular that bell is convinced 441 00:24:44,830 --> 00:24:47,600 there's a fault with her telescope. 442 00:24:47,600 --> 00:24:49,540 She returns to that spot, 443 00:24:49,540 --> 00:24:53,840 and finds a repeating, regular signal... 444 00:24:53,840 --> 00:24:59,380 A single point in the sky that is flashing at us continually, 445 00:24:59,380 --> 00:25:02,180 saying "Hi. Hi. Hi." 446 00:25:02,180 --> 00:25:03,880 Blip, blip, blip. 447 00:25:03,890 --> 00:25:06,250 Boom, boom, boom. 448 00:25:06,260 --> 00:25:08,150 Pulse, pulse, pulse. 449 00:25:08,160 --> 00:25:10,160 Nothing that we know of in the universe, 450 00:25:10,160 --> 00:25:14,730 has such a steady, perfectly-spaced in time, pulse. 451 00:25:14,730 --> 00:25:18,970 It seemed so perfect that it must have been artificial. 452 00:25:18,970 --> 00:25:22,340 It looks like someone is making that, 453 00:25:22,340 --> 00:25:26,310 but it turns out, it's not a person, but a thing. 454 00:25:26,310 --> 00:25:29,180 What she discovered was called a "pulsar." 455 00:25:32,010 --> 00:25:34,610 A pulsar is a type of rapidly spinning 456 00:25:34,620 --> 00:25:35,980 neutron star. 457 00:25:38,790 --> 00:25:42,660 Neutron stars had been theorized in the 1930s, 458 00:25:42,660 --> 00:25:46,560 but were thought to be too faint to be detected. 459 00:25:46,560 --> 00:25:51,160 Neutron stars were hypothesized to exist, 460 00:25:51,170 --> 00:25:54,070 but not really taken seriously. 461 00:25:54,070 --> 00:25:56,540 It was just a, "oh, that's cute. 462 00:25:56,540 --> 00:25:59,140 Maybe they're out there, but probably not." 463 00:26:00,280 --> 00:26:02,110 The signal bell detected 464 00:26:02,110 --> 00:26:06,110 seemed like something from science fiction. 465 00:26:06,110 --> 00:26:08,880 No one had ever seen this in astronomy before, 466 00:26:08,880 --> 00:26:13,020 and some people even speculated that it was an alien signal. 467 00:26:13,020 --> 00:26:15,360 She even called them "LGM objects"... 468 00:26:15,360 --> 00:26:18,330 "little green men." 469 00:26:18,330 --> 00:26:20,830 But then, bell found a second signal. 470 00:26:23,670 --> 00:26:26,830 Little green men went back to being fiction, 471 00:26:26,840 --> 00:26:30,500 and pulsars became science fact. 472 00:26:30,510 --> 00:26:32,770 The discovery of pulsars came out of the blue. 473 00:26:32,770 --> 00:26:34,370 Nobody was expecting this. 474 00:26:34,380 --> 00:26:36,580 So, it was an amazing breakthrough... 475 00:26:36,580 --> 00:26:37,780 Really important. 476 00:26:40,950 --> 00:26:45,350 Pulsars pulse because they are born to spin. 477 00:26:45,350 --> 00:26:49,590 They burst into life as their parent star collapses 478 00:26:49,590 --> 00:26:51,120 during a supernova. 479 00:26:53,300 --> 00:26:55,660 Any object at all that is undergoing 480 00:26:55,660 --> 00:26:57,800 any sort of compression event, 481 00:26:57,800 --> 00:27:01,030 if it has any initial angular momentum at all, 482 00:27:01,040 --> 00:27:05,140 it will eventually end up spinning. 483 00:27:05,140 --> 00:27:09,240 As the star shrinks, it spins faster and faster. 484 00:27:11,210 --> 00:27:15,350 They spin so quickly because the Earth-sized core 485 00:27:15,350 --> 00:27:16,720 of a massive star 486 00:27:16,720 --> 00:27:19,990 collapsed to something as small as a city. 487 00:27:19,990 --> 00:27:24,090 So, because the size of the object became so much smaller, 488 00:27:24,090 --> 00:27:28,830 the rate of spin had to increase by a tremendous amount. 489 00:27:28,830 --> 00:27:32,100 Neutron stars can spin really, really, fast. 490 00:27:32,100 --> 00:27:34,570 Their surface is moving so fast. 491 00:27:34,570 --> 00:27:38,370 It's moving at about 20% the speed of light, in some cases. 492 00:27:38,370 --> 00:27:41,640 So, if you were to get on the neutron star ride... 493 00:27:41,640 --> 00:27:45,610 No pregnant women, no bad backs, no heart issues, 494 00:27:45,610 --> 00:27:48,380 keep your arms and legs inside the ride at all times, 495 00:27:48,380 --> 00:27:50,720 because they are about to be obliterated. 496 00:27:52,620 --> 00:27:57,890 And as they spin, they generate flashing beams of energy. 497 00:27:57,890 --> 00:28:00,290 This beam is like a lighthouse beam. 498 00:28:00,300 --> 00:28:03,700 You see these periodic flashes many times per second. 499 00:28:03,700 --> 00:28:08,570 So, every time you see it... Beam, beam, beam. 501 00:28:08,570 --> 00:28:11,570 These beams are the pulsar's calling card. 502 00:28:11,570 --> 00:28:14,270 They're generated by the elemental chaos 503 00:28:14,280 --> 00:28:16,910 raging inside a neutron star. 504 00:28:16,910 --> 00:28:18,780 Although the star is predominantly 505 00:28:18,780 --> 00:28:20,650 a ball of neutrons, 506 00:28:20,650 --> 00:28:24,380 the crust is sprinkled with protons and electrons, 507 00:28:24,390 --> 00:28:26,620 spinning hundreds of times a second, 508 00:28:26,620 --> 00:28:29,360 generating an incredible magnetic field. 509 00:28:31,060 --> 00:28:32,890 And with this strong magnetic field, 510 00:28:32,890 --> 00:28:34,990 you can create strong electric fields. 511 00:28:35,000 --> 00:28:36,660 And the electric and magnetic fields 512 00:28:36,670 --> 00:28:40,270 can work off of each other and become radiation. 513 00:28:40,270 --> 00:28:46,040 These neutron stars send jets... Beams of radiation... 514 00:28:46,040 --> 00:28:48,140 Out of their spinning poles. 515 00:28:48,140 --> 00:28:50,610 And if their spinning pole is misaligned, 516 00:28:50,610 --> 00:28:52,210 if they're a little bit tilted, 517 00:28:52,210 --> 00:28:56,480 this beam will make circles, across the universe. 518 00:28:56,490 --> 00:28:59,250 And if we're in the path of one of these circles, 519 00:28:59,250 --> 00:29:02,990 we'll see a flash... A flash. 521 00:29:02,990 --> 00:29:04,660 Just like if you're on a ship, 522 00:29:04,660 --> 00:29:07,330 and you observe a distant lighthouse in a foggy night, 523 00:29:07,330 --> 00:29:11,300 you can see pulsars across the vast expanse of space 524 00:29:11,300 --> 00:29:14,900 because they are immensely powerful beams of light. 525 00:29:14,900 --> 00:29:18,200 But sometimes, pulsars get an extra push 526 00:29:18,210 --> 00:29:21,980 that accelerates the spin even more. 527 00:29:21,980 --> 00:29:24,110 The way you make it spin even faster 528 00:29:24,110 --> 00:29:27,280 is by subsequently dumping more material onto it. 529 00:29:27,280 --> 00:29:29,780 That's called "accretion," and you end up spinning it up 530 00:29:29,790 --> 00:29:31,890 even faster than it was already spinning. 531 00:29:31,890 --> 00:29:33,990 Like stellar vampires, 532 00:29:33,990 --> 00:29:36,220 pulsars are ready to suck the life 533 00:29:36,220 --> 00:29:39,630 out of any objects that stray too close. 534 00:29:39,630 --> 00:29:42,060 Gravity is bringing that material in, 535 00:29:42,060 --> 00:29:44,730 which means that any spin it has is accelerated. 536 00:29:44,730 --> 00:29:46,530 It spins faster and faster. 537 00:29:46,540 --> 00:29:48,840 These millisecond pulsars 538 00:29:48,840 --> 00:29:53,040 spin at around 700 revolutions per second. 539 00:29:53,040 --> 00:29:55,140 They are the ultimate kitchen blender... 540 00:29:55,140 --> 00:29:59,480 They will chop, they will slice, they will even julienne fry. 541 00:30:02,180 --> 00:30:04,220 So, what stops neutron stars 542 00:30:04,220 --> 00:30:07,390 from simply tearing themselves apart? 543 00:30:07,390 --> 00:30:10,690 Neutron stars are incredibly exotic objects 544 00:30:10,690 --> 00:30:14,730 with immense, immense forces that bind them together, 545 00:30:14,730 --> 00:30:16,930 and so, they can be held rigid even against 546 00:30:16,930 --> 00:30:19,230 these incredibly fast rotation speeds. 547 00:30:22,900 --> 00:30:24,770 They have incredibly strong gravity, 548 00:30:24,770 --> 00:30:26,670 and this is what allows them to hold together 549 00:30:26,680 --> 00:30:28,840 even though they're spinning around so fast. 550 00:30:31,910 --> 00:30:37,280 The speed of the spin is hard to imagine. 551 00:30:37,290 --> 00:30:39,450 On earth, a day is 24 hours long. 552 00:30:39,450 --> 00:30:44,490 On a neutron star, it's a 700th of a second long. 553 00:30:44,490 --> 00:30:48,530 Super-speeding pulsars are not the only weird stars 555 00:30:48,530 --> 00:30:51,060 that scientists are coming to grips with. 556 00:30:51,070 --> 00:30:53,430 There is one other type of neutron star, 557 00:30:53,440 --> 00:30:57,340 that has the most powerful magnetic field in the universe. 558 00:30:57,340 --> 00:31:01,740 This magnetic monster is called a "magnetar." 559 00:31:11,850 --> 00:31:14,990 Astronomers monitoring pulsing neutron stars 560 00:31:14,990 --> 00:31:17,960 have noticed something very odd. 561 00:31:17,960 --> 00:31:23,560 On very rare occasions, they can suddenly speed up. 562 00:31:23,570 --> 00:31:24,760 That's amazing. 563 00:31:24,770 --> 00:31:26,770 I mean, you've got this incredibly dense object, 564 00:31:26,770 --> 00:31:28,200 and suddenly, it's spinning faster. 565 00:31:28,200 --> 00:31:30,270 It happens... Instantly. 566 00:31:30,270 --> 00:31:32,110 They'll suddenly change frequency. 567 00:31:32,110 --> 00:31:35,380 It would take an amazing amount of power to do that. 568 00:31:35,380 --> 00:31:36,980 What's doing it? 569 00:31:36,980 --> 00:31:41,680 These sudden changes in speed are called "glitches." 570 00:31:41,680 --> 00:31:44,050 One leading idea for what causes these glitches 571 00:31:44,050 --> 00:31:46,690 is that the core material latches onto the crust, 572 00:31:46,690 --> 00:31:49,890 and this affects the way it can spin around. 573 00:31:49,890 --> 00:31:53,760 Excess material beneath the crust cracks it open, 574 00:31:53,760 --> 00:31:55,760 causing the glitch. 575 00:31:55,760 --> 00:31:59,670 This process releases a tremendous amount of radiation, 576 00:31:59,670 --> 00:32:04,200 a blast of x-rays, causes the face of the neutron star 577 00:32:04,210 --> 00:32:08,570 to rearrange itself, and for the rotation speed to change. 578 00:32:08,580 --> 00:32:11,180 But there's another possible explanation. 579 00:32:11,180 --> 00:32:15,520 Glitches could also be caused by starquakes. 580 00:32:15,520 --> 00:32:17,980 Sometimes, the crust gets ruptured. 581 00:32:17,990 --> 00:32:22,120 Anything that basically changes the geometry of the pulsar 582 00:32:22,120 --> 00:32:25,090 can change the rate at which it spins. 583 00:32:25,090 --> 00:32:26,590 So, what could be powerful enough 584 00:32:26,590 --> 00:32:29,930 to cause these starquakes? 585 00:32:29,930 --> 00:32:30,960 It's hard to believe 586 00:32:30,970 --> 00:32:33,300 that there's any force in the universe 587 00:32:33,300 --> 00:32:36,370 that could deform the matter inside of a neutron star, 588 00:32:36,370 --> 00:32:39,140 which is undergoing tremendous gravity. 589 00:32:39,140 --> 00:32:40,870 But when it comes to a neutron star, 590 00:32:40,880 --> 00:32:44,080 if there's one thing that can do it, it's magnetism. 591 00:32:44,080 --> 00:32:45,810 Extreme magnetic fields 592 00:32:45,810 --> 00:32:48,610 within the star can get so twisted 593 00:32:48,620 --> 00:32:51,320 they can rip the crust wide open. 594 00:32:51,320 --> 00:32:53,920 And so, the surface can restructure itself, 595 00:32:53,920 --> 00:32:55,490 and constantly reshape. 596 00:32:55,490 --> 00:32:58,160 And just a tiny reconfiguration 597 00:32:58,160 --> 00:32:59,930 of the surface of a neutron star, 598 00:32:59,930 --> 00:33:01,560 on the order of a few millimeters, 599 00:33:01,560 --> 00:33:06,030 would be associated with an enormous release of energy. 600 00:33:06,030 --> 00:33:08,200 The neutron star's immense gravity 601 00:33:08,200 --> 00:33:13,340 smooths over the star's surface almost instantaneously. 602 00:33:13,340 --> 00:33:15,880 It's like the glitch never happened. 603 00:33:19,350 --> 00:33:21,450 When it comes to neutron stars, 604 00:33:21,450 --> 00:33:26,050 there is no end to magnetic mayhem. 605 00:33:26,050 --> 00:33:28,020 Meet the reigning champion 606 00:33:28,020 --> 00:33:32,560 in the universal "strongest magnetic field" competition... 607 00:33:32,560 --> 00:33:35,060 The magnetar. 608 00:33:35,060 --> 00:33:38,630 1 in 10 neutron stars formed during a supernova 609 00:33:38,630 --> 00:33:41,130 becomes a magnetar. 610 00:33:41,140 --> 00:33:45,710 The thing about magnetars, as is implied in their name... 611 00:33:45,710 --> 00:33:48,010 The magnetic field on them is so strong, 612 00:33:48,010 --> 00:33:50,540 that even somebody who is used to using big numbers... 613 00:33:50,550 --> 00:33:52,310 Like, say, an astronomer... 614 00:33:52,310 --> 00:33:55,380 Is still kind of in awe of these things. 615 00:33:55,380 --> 00:33:57,750 Magnetars have a magnetic field 616 00:33:57,750 --> 00:34:01,920 one thousand trillion times stronger than that of earth's. 617 00:34:01,920 --> 00:34:03,820 This amount of magnetism 618 00:34:03,830 --> 00:34:08,630 will seriously mess up anything that comes close. 619 00:34:08,630 --> 00:34:11,130 Any normal object that we are familiar with, 620 00:34:11,130 --> 00:34:14,770 if it got close to a magnetar, it would just be shredded. 621 00:34:14,770 --> 00:34:17,070 Any charged particle with any movement at all, 622 00:34:17,070 --> 00:34:18,910 would just be torn from its atom. 623 00:34:18,910 --> 00:34:22,310 It would be just an insane situation. 624 00:34:22,310 --> 00:34:26,710 Magnetars burn brightly, but their lives are brief. 625 00:34:26,710 --> 00:34:27,980 We think magnetars... 626 00:34:27,980 --> 00:34:30,620 These intensely magnetized neutron stars... 627 00:34:30,620 --> 00:34:32,550 Can only be really short-lived. 628 00:34:32,550 --> 00:34:34,820 Their magnetic field is so powerful 629 00:34:34,820 --> 00:34:37,360 that it should decay over very rapid time scales, 630 00:34:37,360 --> 00:34:39,890 only on the order of a few ten thousand years. 631 00:34:39,890 --> 00:34:44,360 It seems their very strength leads to their downfall. 632 00:34:44,370 --> 00:34:46,300 That magnetic field is so strong 633 00:34:46,300 --> 00:34:49,340 that it's picking up material around it, and accelerating it. 634 00:34:49,340 --> 00:34:51,370 Well, that acts like a drag, slowing it down. 635 00:34:51,370 --> 00:34:54,540 So, over time, the spin of the neutron star slows, 636 00:34:54,540 --> 00:34:56,380 and the magnetic field dies away. 637 00:34:58,680 --> 00:34:59,980 During their lives, 638 00:34:59,980 --> 00:35:03,580 magnetars operate very differently than pulsars. 639 00:35:03,590 --> 00:35:05,220 They don't have beams. 640 00:35:05,220 --> 00:35:08,190 Their magnetic fields shoot out gigantic bursts 641 00:35:08,190 --> 00:35:11,620 of high-intensity radiation. 642 00:35:11,630 --> 00:35:15,290 But recently, astronomers have spotted one neutron star 643 00:35:15,300 --> 00:35:17,760 that's hard to classify. 644 00:35:17,770 --> 00:35:22,030 It behaves like a stellar Jekyll and Hyde. 645 00:35:24,040 --> 00:35:27,940 So, this particular neutron star is a really weird example. 646 00:35:27,940 --> 00:35:30,310 It behaves both like a radio pulsar, 647 00:35:30,310 --> 00:35:33,250 and also a highly-magnetized magnetar. 648 00:35:33,250 --> 00:35:35,580 It has the extreme magnetic fields, 649 00:35:35,580 --> 00:35:38,320 it can have these magnetic outbursts, 650 00:35:38,320 --> 00:35:41,050 but it also has this strong jet of radiation 651 00:35:41,060 --> 00:35:42,320 coming out of its poles. 652 00:35:42,320 --> 00:35:46,360 It's almost like it has a split personality. 653 00:35:46,360 --> 00:35:48,630 When first sighted in 2000, 654 00:35:48,630 --> 00:35:51,130 this star was emitting radio waves... 655 00:35:51,130 --> 00:35:54,070 Typical pulsar behavior. 656 00:35:54,070 --> 00:35:58,070 Then, 16 years later, it stopped pulsing, 657 00:35:58,070 --> 00:36:02,510 and suddenly started sending out massive X-ray bursts... 658 00:36:02,510 --> 00:36:05,440 The actions of a magnetar. 659 00:36:05,450 --> 00:36:08,480 Scientists were baffled. 660 00:36:08,480 --> 00:36:11,680 We don't know if this thing is a pulsar turning into a magnetar, 661 00:36:11,690 --> 00:36:14,250 or a magnetar turning into a pulsar. 662 00:36:14,260 --> 00:36:17,190 One theory is that these X-ray bursts happened 663 00:36:17,190 --> 00:36:21,260 because the star's magnetic field suddenly twisted. 664 00:36:21,260 --> 00:36:25,700 The stress became so great, the star cracked wide open, 665 00:36:25,700 --> 00:36:29,700 releasing the X-rays from the fractured crust. 666 00:36:29,700 --> 00:36:31,970 A neutron star is the densest material 667 00:36:31,970 --> 00:36:33,910 that we know of in the universe. 668 00:36:33,910 --> 00:36:35,140 And yet, we've seen things 669 00:36:35,140 --> 00:36:37,580 that actually make it shift and pull apart. 670 00:36:37,580 --> 00:36:40,210 This neutron star is actually ripping itself apart 671 00:36:40,220 --> 00:36:42,280 under the forces of the magnetic field. 672 00:36:42,280 --> 00:36:43,780 If this is the case, 673 00:36:43,790 --> 00:36:48,350 placid neutron stars turn into raging magnetars, 674 00:36:48,360 --> 00:36:51,790 growing old disgracefully. 675 00:36:51,790 --> 00:36:53,790 When you think about the life cycle of a human being, 676 00:36:53,800 --> 00:36:55,630 we seem to kind of slow down over age, 677 00:36:55,630 --> 00:36:57,100 become a little more calmer. 678 00:36:57,100 --> 00:36:58,760 Neutron stars do the opposite. 679 00:36:58,770 --> 00:37:00,570 They can be spinning faster than they were 680 00:37:00,570 --> 00:37:01,870 when they were formed, 681 00:37:01,870 --> 00:37:04,200 and the magnetic field can get stronger over time. 682 00:37:04,210 --> 00:37:07,370 It's sort of a reverse aging process. 683 00:37:07,380 --> 00:37:10,640 But these strange changes are extremely rare. 684 00:37:10,650 --> 00:37:15,720 Most pulsars are as regular as clockwork. 685 00:37:15,720 --> 00:37:17,680 Pulsars are normally incredibly regular. 686 00:37:17,690 --> 00:37:20,850 You can literally set your watch to the timing of their pulse. 687 00:37:20,860 --> 00:37:23,420 And it's this stability that we may use 688 00:37:23,420 --> 00:37:27,060 in our future exploration of the universe. 689 00:37:27,060 --> 00:37:28,930 You know, if you're a starship captain, 690 00:37:28,930 --> 00:37:32,100 what you need is a galactic GPS system. 691 00:37:32,100 --> 00:37:35,230 Well it turns out, neutron stars may be the answer. 692 00:37:45,310 --> 00:37:47,150 Astronomers often compare 693 00:37:47,150 --> 00:37:51,420 the steady flash of spinning neutron stars, called "pulsars," 694 00:37:51,420 --> 00:37:53,490 to cosmic lighthouses. 695 00:37:53,490 --> 00:37:57,260 These flashes are not only remarkably reliable, 696 00:37:57,260 --> 00:38:02,800 each pulsar has its very own distinct flickering beam. 697 00:38:02,800 --> 00:38:05,230 Each one has a slightly different frequency. 698 00:38:05,230 --> 00:38:08,070 Each one has a slightly different rate. 699 00:38:08,070 --> 00:38:11,440 Anyone in the galaxy, no matter where you are, 700 00:38:11,440 --> 00:38:17,680 can all agree on the positions of these pulsars. 701 00:38:17,680 --> 00:38:20,010 The unique signature of pulsars 702 00:38:20,010 --> 00:38:22,650 opens up intriguing possibilities 703 00:38:22,650 --> 00:38:24,250 for the future of space travel. 704 00:38:29,690 --> 00:38:32,090 We would basically be using pulsars 705 00:38:32,090 --> 00:38:34,990 to be able to sort of triangulate where we're at. 706 00:38:35,000 --> 00:38:37,360 And because those pulses are so precise, 707 00:38:37,370 --> 00:38:40,570 we can use that in a similar way that we use GPS satellites 708 00:38:40,570 --> 00:38:42,100 that are stationed above the Earth. 709 00:38:45,040 --> 00:38:47,910 Using pulsars as navigational aids 710 00:38:47,910 --> 00:38:49,740 is not a new idea. 711 00:38:49,740 --> 00:38:53,110 It was recognized by the NASA voyager mission 712 00:38:53,110 --> 00:38:56,120 in the 1970's. 713 00:38:56,120 --> 00:38:58,480 Affixed to the surface of those spacecraft 714 00:38:58,490 --> 00:38:59,750 is a golden record. 715 00:38:59,750 --> 00:39:01,750 And on the plate that covers that record 716 00:39:01,760 --> 00:39:05,190 is a pulsar map, which in principle could tell 717 00:39:05,190 --> 00:39:08,590 an advanced alien civilization how to find earth, 718 00:39:08,600 --> 00:39:11,100 because it uses the position of earth 719 00:39:11,100 --> 00:39:13,270 relative to 14 known pulsars, 720 00:39:13,270 --> 00:39:15,430 as, effectively, a way to triangulate 721 00:39:15,440 --> 00:39:16,970 the position of our planet 722 00:39:16,970 --> 00:39:19,910 relative to all of these pulsars. 723 00:39:19,910 --> 00:39:25,910 Aliens haven't made contact, but NASA still uses pulsar maps. 724 00:39:25,910 --> 00:39:27,810 NASA recently launched a satellite 725 00:39:27,820 --> 00:39:29,450 called "nicer sextant" 726 00:39:29,450 --> 00:39:32,050 that exists on the international space station, 727 00:39:32,050 --> 00:39:34,750 that is being used to test these types of theories. 728 00:39:43,460 --> 00:39:45,930 They've used pulsars to figure out the location 729 00:39:45,930 --> 00:39:47,930 of an object orbiting around the Earth 730 00:39:47,940 --> 00:39:50,240 at 17,000 miles an hour, 731 00:39:50,240 --> 00:39:52,070 and they were able to pinpoint its location 732 00:39:52,070 --> 00:39:53,570 to within three miles. 733 00:39:53,570 --> 00:39:55,640 That's pretty incredible. 734 00:39:55,640 --> 00:40:00,010 By recognizing their position relative to known pulsars, 735 00:40:00,010 --> 00:40:03,720 future space missions could navigate the universe. 736 00:40:10,260 --> 00:40:13,230 Neutron stars are gonna take us on this incredible journey... 737 00:40:13,230 --> 00:40:14,660 Something as necessary 738 00:40:14,660 --> 00:40:16,530 as knowing where you are in the galaxy. 739 00:40:16,530 --> 00:40:18,430 We could be many hundreds of light years away, 740 00:40:18,430 --> 00:40:20,230 but neutron stars can actually show us 741 00:40:20,230 --> 00:40:21,800 where in the milky way we are. 742 00:40:29,610 --> 00:40:30,910 I read a lot of science fiction, 743 00:40:30,910 --> 00:40:33,610 and I love the idea of being able to go 744 00:40:33,610 --> 00:40:36,180 from star to star, planet to planet. 745 00:40:36,180 --> 00:40:39,950 It's kind of weird to think that, in the future, 746 00:40:39,950 --> 00:40:42,460 as a galactic coordinate grid, 747 00:40:42,460 --> 00:40:46,690 we might wind up using these gigantic atomic nuclei, 748 00:40:46,690 --> 00:40:49,800 these rapidly spinning, bizarrely-constructed, 749 00:40:49,800 --> 00:40:54,270 magnetic, fiercely gravitational objects like neutron stars. 750 00:40:57,370 --> 00:41:00,210 Neutron stars have come a long way 751 00:41:00,210 --> 00:41:04,910 since being mistaken for little green men. 752 00:41:04,910 --> 00:41:09,450 Once overlooked as astronomical oddities, 753 00:41:09,450 --> 00:41:16,890 they've now taken center stage as genuine stellar superstars. 754 00:41:16,890 --> 00:41:19,330 What's really exciting about neutron stars is that, 755 00:41:19,330 --> 00:41:21,630 we're at the beginning of studying them. 756 00:41:21,630 --> 00:41:23,960 We're not at the conclusion. We've learned a lot, 757 00:41:23,970 --> 00:41:25,800 but there's a lot more to be learned. 758 00:41:25,800 --> 00:41:30,470 From the humble neutron comes the most powerful, 759 00:41:30,470 --> 00:41:33,910 the most rapid, the strongest magnetic field, 760 00:41:33,910 --> 00:41:37,740 the most exotic objects in the cosmos. 761 00:41:37,750 --> 00:41:39,450 I love the idea of a Phoenix, 762 00:41:39,450 --> 00:41:41,980 something actually rising from its own ashes. 763 00:41:41,980 --> 00:41:44,550 You think something dies, and that's the end of the story, 764 00:41:44,550 --> 00:41:46,120 but something even more beautiful, 765 00:41:46,120 --> 00:41:48,550 even more fascinating, comes afterwards. 766 00:41:48,560 --> 00:41:50,790 I told you at the beginning, and you didn't believe me, 767 00:41:50,790 --> 00:41:52,160 but now, I hope you do... 768 00:41:52,160 --> 00:41:54,760 Neutron stars are the most fascinating 769 00:41:54,760 --> 00:41:57,400 astrophysical objects in the universe. 61407