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These are the user uploaded subtitles that are being translated: 1 00:00:01,000 --> 00:00:03,003 ♪ ♪ 2 00:00:06,505 --> 00:00:10,777 NARRATOR: They're the most mysterious particles ever discovered, 3 00:00:10,810 --> 00:00:14,981 tiny ghosts hidden in our world. 4 00:00:15,014 --> 00:00:20,153 Now scientists are on a mission to unlock their secrets. 5 00:00:20,186 --> 00:00:23,123 They're called neutrinos. 6 00:00:24,824 --> 00:00:29,228 The story of their discovery is almost impossible to believe. 7 00:00:29,261 --> 00:00:31,364 DAVID KAISER: If they had bolted the detector 8 00:00:31,397 --> 00:00:32,665 in place, the nuclear bomb would've 9 00:00:32,698 --> 00:00:34,567 just smashed it to smithereens. 10 00:00:34,600 --> 00:00:38,771 NARRATOR: With links to a dramatic Cold War defection. 11 00:00:38,804 --> 00:00:40,640 FRANK CLOSE: He disappeared through the Iron Curtain, 12 00:00:40,673 --> 00:00:41,908 and for five years, 13 00:00:41,941 --> 00:00:43,609 disappeared off the face of the planet. 14 00:00:43,642 --> 00:00:45,678 NARRATOR: And astonishing experiments 15 00:00:45,711 --> 00:00:48,081 that keep defying the laws of physics. 16 00:00:48,114 --> 00:00:51,651 KERSTIN PEREZ: Even as someone who builds these experiments for a living, 17 00:00:51,684 --> 00:00:54,187 it just seems mind-blowing that they ever work. 18 00:00:54,220 --> 00:00:57,123 NARRATOR: Today, scientists are using neutrinos 19 00:00:57,156 --> 00:01:00,760 to probe the edges of our detectable universe. 20 00:01:00,793 --> 00:01:04,297 They're on a mission to reveal a hidden world 21 00:01:04,330 --> 00:01:06,199 of "Particles Unknown." 22 00:01:08,467 --> 00:01:10,903 Right now, on "NOVA." 23 00:01:10,936 --> 00:01:15,641 ♪ ♪ 24 00:01:15,674 --> 00:01:17,343 ANNOUNCER: Major funding for "NOVA" is provided by the following: 25 00:01:17,343 --> 00:01:18,444 ANNOUNCER: As an American-based supplier 26 00:01:18,444 --> 00:01:19,912 to the construction industry, 27 00:01:19,912 --> 00:01:23,182 Carlisle is committed to developing a diverse workplace 28 00:01:23,182 --> 00:01:24,550 that supports our employees' advancement 29 00:01:24,550 --> 00:01:26,552 into the next generation of leaders, 30 00:01:26,552 --> 00:01:28,788 from the manufacturing floor to the front office. 31 00:01:28,788 --> 00:01:30,657 Learn more at Carlisle.com. 32 00:01:38,364 --> 00:01:41,567 NARRATOR: We live in a world of matter-- 33 00:01:41,600 --> 00:01:47,340 a realm of tiny particles far smaller than atoms 34 00:01:47,373 --> 00:01:49,275 that build the universe that we know. 35 00:01:49,308 --> 00:01:53,012 But there is a mystery. 36 00:01:53,045 --> 00:01:58,017 Scientists theorize there exists a hidden, parallel world 37 00:01:58,050 --> 00:02:02,989 of particles-- so-called dark matter. 38 00:02:03,022 --> 00:02:08,928 So far, no one has managed to detect a single one. 39 00:02:08,961 --> 00:02:14,300 But now there might be a way. 40 00:02:14,333 --> 00:02:17,370 Of all the particles scientists have discovered, 41 00:02:17,403 --> 00:02:22,041 the most elusive, on the very edge of detectability, 42 00:02:22,074 --> 00:02:25,044 are neutrinos. 43 00:02:25,077 --> 00:02:27,847 ♪ ♪ 44 00:02:27,880 --> 00:02:31,117 KAISER: Neutrinos are really remarkable particles. 45 00:02:31,150 --> 00:02:33,619 There are trillions and trillions of them 46 00:02:33,652 --> 00:02:35,154 streaming through our bodies, 47 00:02:35,187 --> 00:02:36,656 and we don't even notice. 48 00:02:36,689 --> 00:02:39,358 They are kind of ghost-like, and yet they're everywhere. 49 00:02:39,391 --> 00:02:41,961 NARRATOR: Everywhere and nowhere. 50 00:02:41,994 --> 00:02:45,731 Neutrinos are so ghostly, they can pass 51 00:02:45,764 --> 00:02:50,136 through solid matter as if it didn't exist. 52 00:02:50,169 --> 00:02:53,873 And yet they hold the secrets to why the stars shine 53 00:02:53,906 --> 00:02:56,108 and what our universe is made of. 54 00:02:56,141 --> 00:02:58,945 RAY JAYAWARDHANA: The reason we care about these elusive particles 55 00:02:58,978 --> 00:03:02,348 is because they do play a fundamentally important role 56 00:03:02,381 --> 00:03:06,652 in the universe, in the nature of matter-- 57 00:03:06,685 --> 00:03:10,723 in some of the most violent cosmic phenomena. 58 00:03:11,757 --> 00:03:14,627 NARRATOR: First theorized in the 1930s, 59 00:03:14,660 --> 00:03:18,030 they would soon become linked to nuclear secrets 60 00:03:18,063 --> 00:03:20,600 and a dramatic Cold War defection 61 00:03:20,633 --> 00:03:23,603 behind the Iron Curtain. 62 00:03:23,636 --> 00:03:25,338 He goes off to Europe 63 00:03:25,371 --> 00:03:27,139 and never returns. 64 00:03:27,172 --> 00:03:29,875 NARRATOR: Now the quest to detect neutrinos 65 00:03:29,908 --> 00:03:34,680 has triggered vast experiments all over the globe. 66 00:03:34,713 --> 00:03:36,983 Even as someone who builds these experiments for a living, 67 00:03:37,016 --> 00:03:39,585 it just seems mind-blowing that they ever work. 68 00:03:39,618 --> 00:03:42,255 NARRATOR: Today, scientists are on the cusp 69 00:03:42,288 --> 00:03:44,290 of an astonishing discovery. 70 00:03:44,323 --> 00:03:47,426 Tantalizing evidence suggests neutrinos 71 00:03:47,459 --> 00:03:51,130 could be a doorway between our world of matter 72 00:03:51,163 --> 00:03:53,966 and the hidden world of dark matter, 73 00:03:53,999 --> 00:03:56,302 waiting to be discovered. 74 00:03:56,335 --> 00:03:58,604 GEORGIA KARAGIORGI: It would be a game-changer. 75 00:03:58,637 --> 00:04:00,706 What exactly are these particles? 76 00:04:00,739 --> 00:04:05,344 What is its role in the evolution of our universe? 77 00:04:05,377 --> 00:04:07,146 NARRATOR: The quest for answers 78 00:04:07,179 --> 00:04:09,782 has driven scientists to the edge 79 00:04:09,815 --> 00:04:12,051 of what is experimentally possible 80 00:04:12,084 --> 00:04:17,923 to reveal a universe we've never seen before. 81 00:04:17,956 --> 00:04:22,695 ♪ ♪ 82 00:04:29,335 --> 00:04:33,072 NARRATOR: Fermilab, in Batavia, Illinois. 83 00:04:33,105 --> 00:04:37,009 World-renowned physics laboratory. 84 00:04:37,042 --> 00:04:40,813 Thousands of scientists build enormous experiments 85 00:04:40,846 --> 00:04:43,182 to probe the very smallest particles 86 00:04:43,215 --> 00:04:46,452 that make up our universe. 87 00:04:46,485 --> 00:04:48,020 (indistinct chatter) 88 00:04:48,053 --> 00:04:50,723 Leading one of the teams is Sam Zeller. 89 00:04:50,756 --> 00:04:52,892 Hi, team. 90 00:04:52,925 --> 00:04:54,460 My interest in physics started when I signed up 91 00:04:54,493 --> 00:04:57,196 for a field trip to come to Fermilab in high school. 92 00:04:57,229 --> 00:04:58,597 It just blew my mind. 93 00:04:58,630 --> 00:05:03,669 From that point on, I was a particle physicist. 94 00:05:03,702 --> 00:05:05,971 ♪ ♪ 95 00:05:06,004 --> 00:05:09,008 It turns out that the universe can be described 96 00:05:09,041 --> 00:05:11,410 by a small number of subatomic particles. 97 00:05:11,443 --> 00:05:14,180 ♪ ♪ 98 00:05:14,213 --> 00:05:16,015 NARRATOR: Today, scientists have discovered 99 00:05:16,048 --> 00:05:19,952 17 basic particles that make up our universe. 100 00:05:19,985 --> 00:05:21,721 ♪ ♪ 101 00:05:21,754 --> 00:05:25,991 Some are the building blocks of atoms. 102 00:05:26,024 --> 00:05:31,030 Others are the things that hold matter together. 103 00:05:31,063 --> 00:05:34,333 It's an understanding of our world that physicists call 104 00:05:34,366 --> 00:05:36,736 the Standard Model. 105 00:05:36,769 --> 00:05:38,904 PEREZ: The Standard Model of particle physics 106 00:05:38,937 --> 00:05:42,074 describes the most fundamental constituents of matter 107 00:05:42,107 --> 00:05:45,144 and how they interact with each other. 108 00:05:45,177 --> 00:05:48,414 It is in fact the most mathematically well-defined 109 00:05:48,447 --> 00:05:51,851 physical theory we as humans have ever written down. 110 00:05:51,884 --> 00:05:53,352 ♪ ♪ 111 00:05:53,385 --> 00:05:54,620 NARRATOR: For 50 years, 112 00:05:54,653 --> 00:05:58,758 the Standard Model has withstood test after test, 113 00:05:58,791 --> 00:06:02,027 confirming the hierarchy of all the fundamental particles. 114 00:06:02,060 --> 00:06:03,796 (device beeping) 115 00:06:03,829 --> 00:06:09,369 But one type remains far more mysterious than others. 116 00:06:10,469 --> 00:06:14,140 They're called neutrinos. 117 00:06:14,173 --> 00:06:15,141 JAYAWARDHANA: A neutrino is a 118 00:06:15,174 --> 00:06:17,510 type of elementary particle, 119 00:06:17,543 --> 00:06:21,614 a basic fundamental building block of the universe, 120 00:06:21,647 --> 00:06:25,718 and they come in three different flavors. 121 00:06:25,751 --> 00:06:27,353 KARAGIORGI: Neutrinos are everywhere. 122 00:06:27,386 --> 00:06:30,189 They are produced in the sun. 123 00:06:30,222 --> 00:06:34,360 There are neutrinos that were left over after the Big Bang. 124 00:06:34,393 --> 00:06:38,364 Humans emit neutrinos. 125 00:06:38,397 --> 00:06:41,000 CLOSE: Neutrinos have got no electric charge. 126 00:06:41,033 --> 00:06:43,869 They've almost got no mass at all. 127 00:06:43,902 --> 00:06:45,838 They're as near to nothing as you can imagine. 128 00:06:45,871 --> 00:06:49,408 They're so reluctant to interact with stuff, 129 00:06:49,441 --> 00:06:53,012 they pass through the Earth as if it wasn't there. 130 00:06:53,045 --> 00:06:56,849 NARRATOR: And yet, at Fermilab, scientists are constructing 131 00:06:56,882 --> 00:06:59,251 a complex two-stage experiment 132 00:06:59,284 --> 00:07:03,456 with the means to create them and study them. 133 00:07:03,489 --> 00:07:05,391 ♪ ♪ 134 00:07:05,424 --> 00:07:08,994 In its first stage, a powerful ring of magnets 135 00:07:09,027 --> 00:07:12,698 accelerates positively charged particles called protons 136 00:07:12,731 --> 00:07:18,771 to colossal speeds, sending them smashing into a target. 137 00:07:18,804 --> 00:07:21,807 The collision creates a shower of new particles, 138 00:07:21,840 --> 00:07:26,779 including a powerful beam of neutrinos. 139 00:07:26,812 --> 00:07:30,382 150 trillion per second pass through the Earth 140 00:07:30,415 --> 00:07:32,251 at nearly the speed of light, 141 00:07:32,284 --> 00:07:34,587 racing towards the second stage-- 142 00:07:34,620 --> 00:07:37,457 three giant neutrino detectors. 143 00:07:39,224 --> 00:07:43,596 The largest is called ICARUS. 144 00:07:43,629 --> 00:07:44,897 Once complete, 145 00:07:44,930 --> 00:07:47,733 this immense tank filled with a web of electronics 146 00:07:47,766 --> 00:07:49,602 and cryogenic liquid 147 00:07:49,635 --> 00:07:54,106 will be bombarded by hundreds of trillions of neutrinos, 148 00:07:54,139 --> 00:07:58,744 all in the hope of catching just one each minute. 149 00:07:58,777 --> 00:08:00,446 ♪ ♪ 150 00:08:00,479 --> 00:08:03,449 That alone will be a remarkable achievement. 151 00:08:03,482 --> 00:08:05,050 (device beeping) 152 00:08:05,083 --> 00:08:08,787 But the scientists have even bigger ambitions. 153 00:08:08,820 --> 00:08:12,758 ZELLER: One of the big goals here at Fermilab is to try to search 154 00:08:12,791 --> 00:08:14,793 for possibly a new type of neutrino 155 00:08:14,826 --> 00:08:16,395 that no one has yet observed. 156 00:08:18,664 --> 00:08:20,032 NARRATOR: Experiments have hinted there could be 157 00:08:20,065 --> 00:08:22,334 an even more elusive neutrino 158 00:08:22,367 --> 00:08:25,838 beyond the three types already known to exist. 159 00:08:25,871 --> 00:08:29,041 Some have suggested that it could be a link 160 00:08:29,074 --> 00:08:31,277 to a hidden realm of particles 161 00:08:31,310 --> 00:08:32,845 that could finally lead 162 00:08:32,878 --> 00:08:36,916 to new discoveries beyond the Standard Model. 163 00:08:36,949 --> 00:08:39,151 ZELLER: If we found evidence for a new type of neutrino, 164 00:08:39,184 --> 00:08:41,220 that would be really astounding. 165 00:08:41,253 --> 00:08:42,688 That's what gets me excited in the morning. 166 00:08:42,721 --> 00:08:44,089 That's what gets me coming in to work. 167 00:08:44,122 --> 00:08:46,893 It would be a major and massive discovery. 168 00:08:48,694 --> 00:08:52,364 NARRATOR: Making that discovery would be groundbreaking. 169 00:08:52,397 --> 00:08:57,903 Because while ordinary neutrinos are extremely hard to detect, 170 00:08:57,936 --> 00:09:02,808 this fourth type of neutrino could break the Standard Model. 171 00:09:05,243 --> 00:09:06,445 What brought them to this moment-- 172 00:09:06,478 --> 00:09:09,381 and possibly to the brink of upending 173 00:09:09,414 --> 00:09:12,084 one of the bedrocks of modern physics? 174 00:09:12,117 --> 00:09:14,520 ♪ ♪ 175 00:09:14,553 --> 00:09:18,591 That story begins almost 100 years ago 176 00:09:18,624 --> 00:09:20,459 half a world away. 177 00:09:21,927 --> 00:09:24,630 In Rome. 178 00:09:27,065 --> 00:09:30,536 Physicist and historian Professor David Kaiser 179 00:09:30,569 --> 00:09:32,972 has traveled here, to the place where, 180 00:09:33,005 --> 00:09:35,941 in the 1930s, scientists were investigating 181 00:09:35,974 --> 00:09:39,111 the inner workings of the atom. 182 00:09:39,144 --> 00:09:43,282 KAISER: For millennia, for thousands of years, 183 00:09:43,315 --> 00:09:46,552 people had come to believe that the world was made of atoms, 184 00:09:46,585 --> 00:09:49,221 and those atoms were the smallest thing there was. 185 00:09:49,254 --> 00:09:50,856 In fact, the word atom even means 186 00:09:50,889 --> 00:09:53,359 "unbreakable" or "indivisible"-- the smallest piece. 187 00:09:53,392 --> 00:09:55,527 ♪ ♪ 188 00:09:55,560 --> 00:09:57,696 NARRATOR: But by the early 1900s, 189 00:09:57,729 --> 00:10:01,133 scientists had revealed a deeper hidden structure. 190 00:10:02,668 --> 00:10:06,138 KAISER: If you think about an atom, it's about a nanometer, 191 00:10:06,171 --> 00:10:09,642 about a billion times smaller than a meter, roughly. 192 00:10:09,675 --> 00:10:12,711 The inside, the deep core of an atom, the nucleus, 193 00:10:12,744 --> 00:10:16,849 is about 100,000 times smaller than that. 194 00:10:16,882 --> 00:10:20,586 So we're really zooming in powers of ten, powers of ten, 195 00:10:20,619 --> 00:10:22,655 getting to unimaginably tiny scales. 196 00:10:22,688 --> 00:10:26,291 NARRATOR: During the early 20th century, 197 00:10:26,324 --> 00:10:31,430 scientists discovered the atom's tiny nucleus contained protons, 198 00:10:31,463 --> 00:10:34,700 particles with a positive electric charge. 199 00:10:34,733 --> 00:10:37,202 These protons held in place 200 00:10:37,235 --> 00:10:40,572 a cloud of negatively charged electrons 201 00:10:40,605 --> 00:10:43,142 that formed the atom's outer limit. 202 00:10:46,344 --> 00:10:48,847 It seemed that protons and electrons 203 00:10:48,880 --> 00:10:51,884 were the only two components of all atoms-- 204 00:10:51,917 --> 00:10:56,021 permanent and fixed. 205 00:10:56,054 --> 00:10:59,892 But scientists had also found something shocking: 206 00:10:59,925 --> 00:11:04,697 some types of atoms seemed to break apart. 207 00:11:04,730 --> 00:11:06,432 KAISER: That was just jaw-dropping. 208 00:11:06,465 --> 00:11:09,301 Literally, it contradicts the name of the thing itself. 209 00:11:09,334 --> 00:11:10,936 Atoms are supposed to not break down. 210 00:11:10,969 --> 00:11:13,038 ♪ ♪ 211 00:11:13,071 --> 00:11:17,242 NARRATOR: It was as though certain atoms had too much energy. 212 00:11:17,275 --> 00:11:21,346 The nucleus would spontaneously transform 213 00:11:21,379 --> 00:11:24,883 and spit out an electron. 214 00:11:24,916 --> 00:11:28,220 This phenomenon was a type of radioactivity 215 00:11:28,253 --> 00:11:31,690 known as beta decay. 216 00:11:31,723 --> 00:11:33,158 JAYAWARDHANA: It appeared to be 217 00:11:33,191 --> 00:11:37,396 this sort of mysterious energy leaking from or emanating from 218 00:11:37,429 --> 00:11:39,832 certain atoms. 219 00:11:39,865 --> 00:11:43,469 NARRATOR: This process was remarkable in itself, 220 00:11:43,502 --> 00:11:45,537 but when scientists measured the energy 221 00:11:45,570 --> 00:11:49,875 of the electrons from beta decay, something was wrong. 222 00:11:49,908 --> 00:11:54,113 KARAGIORGI: One of the basic principles in all sciences 223 00:11:54,146 --> 00:11:58,383 is that energy can change from one form to the other, 224 00:11:58,416 --> 00:12:01,453 but the total sum must be conserved. 225 00:12:01,486 --> 00:12:03,722 ♪ ♪ 226 00:12:03,755 --> 00:12:08,694 NARRATOR: This is the principle of conservation of energy. 227 00:12:08,727 --> 00:12:11,130 From collisions in the macro world 228 00:12:11,163 --> 00:12:13,232 to the behavior of tiny particles, 229 00:12:13,265 --> 00:12:17,970 the principle states that energy should never disappear. 230 00:12:18,003 --> 00:12:21,340 But when scientists measured the energy of the electrons 231 00:12:21,373 --> 00:12:25,978 from beta decay, that's exactly what seemed to happen. 232 00:12:26,011 --> 00:12:30,282 KARAGIORGI: So every time, rather than having energy conserved, 233 00:12:30,315 --> 00:12:31,583 what they were seeing is that 234 00:12:31,616 --> 00:12:34,386 some amount of energy would be missing. 235 00:12:34,419 --> 00:12:38,557 NARRATOR: Where was the energy going? 236 00:12:38,590 --> 00:12:41,293 It seemed that the particles themselves were breaking 237 00:12:41,326 --> 00:12:45,364 the fundamental rules of physics. 238 00:12:48,166 --> 00:12:50,068 ♪ ♪ 239 00:12:50,101 --> 00:12:55,307 In 1926, a young Italian physicist called Enrico Fermi 240 00:12:55,340 --> 00:12:59,478 was working at the University of Rome's Physics Institute. 241 00:13:01,079 --> 00:13:02,915 It was here that Fermi probed 242 00:13:02,948 --> 00:13:06,886 into the developing field of nuclear physics. 243 00:13:09,321 --> 00:13:10,789 KAISER: Enrico Fermi was really a towering figure 244 00:13:10,822 --> 00:13:11,990 of 20th-century physics-- 245 00:13:12,023 --> 00:13:13,725 by any measure, one of the greatest physicists 246 00:13:13,758 --> 00:13:15,194 of the 20th century. 247 00:13:15,227 --> 00:13:17,930 This is the site where Fermi built what became 248 00:13:17,963 --> 00:13:21,567 an absolutely world-class group of researchers. 249 00:13:21,600 --> 00:13:23,335 NARRATOR: They were known 250 00:13:23,368 --> 00:13:25,904 as the Via Panisperna Boys. 251 00:13:25,937 --> 00:13:27,706 KAISER: This is really an iconic photograph. 252 00:13:27,739 --> 00:13:29,508 It captures them in the middle of what would become 253 00:13:29,541 --> 00:13:31,577 world-changing research. 254 00:13:31,610 --> 00:13:33,378 Fermi himself was remarkably young-- 255 00:13:33,411 --> 00:13:35,581 he was just 26 years old, 256 00:13:35,614 --> 00:13:37,916 and already he'd been made the big senior professor 257 00:13:37,949 --> 00:13:40,986 around which this young group would come together. 258 00:13:41,019 --> 00:13:44,056 They referred to Fermi as the Pope, he was the great leader. 259 00:13:44,089 --> 00:13:48,360 Rasetti was next in line, he was a cardinal. 260 00:13:48,393 --> 00:13:49,428 The person taking the photograph, 261 00:13:49,461 --> 00:13:50,863 the very young Bruno Pontecorvo, 262 00:13:50,896 --> 00:13:52,297 the youngest member of the group, 263 00:13:52,330 --> 00:13:56,468 they called him the Puppy. 264 00:13:56,501 --> 00:14:01,574 NARRATOR: The group's ideas would have a profound impact on the world. 265 00:14:02,707 --> 00:14:04,209 ♪ ♪ 266 00:14:04,242 --> 00:14:07,179 In October 1931, 267 00:14:07,212 --> 00:14:09,815 they invited a group of the world's leading physicists 268 00:14:09,848 --> 00:14:14,353 to a conference held at the Physics Institute. 269 00:14:14,386 --> 00:14:16,955 High on the agenda was the problem 270 00:14:16,988 --> 00:14:20,059 of the missing radioactive energy. 271 00:14:21,826 --> 00:14:23,996 One scientist at the conference, 272 00:14:24,029 --> 00:14:29,301 the famous Wolfgang Pauli, proposed a radical idea. 273 00:14:29,334 --> 00:14:32,237 KAISER: Wolfgang Pauli had written a letter to colleagues. 274 00:14:32,270 --> 00:14:34,806 And he put forward what he called a desperate remedy, 275 00:14:34,839 --> 00:14:38,677 a "versweifelten Ausweg"-- it was just ridiculous. 276 00:14:38,710 --> 00:14:40,612 And he says so in his letter. 277 00:14:40,645 --> 00:14:43,916 It's a really quite strange-sounding idea. 278 00:14:43,949 --> 00:14:46,451 What if there was a new type of particle in the world 279 00:14:46,484 --> 00:14:50,155 that no one had ever seen or detected before? 280 00:14:50,188 --> 00:14:52,124 ♪ ♪ 281 00:14:52,157 --> 00:14:56,695 NARRATOR: Pauli suggested that instead of just an electron, 282 00:14:56,728 --> 00:14:59,431 perhaps there was an unknown particle 283 00:14:59,464 --> 00:15:04,036 that was carrying away the missing energy. 284 00:15:04,069 --> 00:15:06,071 KAISER: Very few people seem to have been convinced 285 00:15:06,104 --> 00:15:07,940 that this was the right way to go. 286 00:15:07,973 --> 00:15:10,709 At that time, physicists were quite confident 287 00:15:10,742 --> 00:15:12,878 there existed two basic kinds of particles, 288 00:15:12,911 --> 00:15:14,646 electrons and protons. 289 00:15:14,679 --> 00:15:19,384 But Pauli was suggesting, "Let's make this enormous leap." 290 00:15:19,417 --> 00:15:23,388 NARRATOR: A new particle of matter seemed a step too far. 291 00:15:23,421 --> 00:15:24,957 ♪ ♪ 292 00:15:24,990 --> 00:15:28,894 But for Enrico Fermi, the Pope of Via Panisperna, 293 00:15:28,927 --> 00:15:34,433 he took the wacky idea and ran with it. 294 00:15:34,466 --> 00:15:37,336 Fermi dedicated the next two years of his life 295 00:15:37,369 --> 00:15:40,305 to describe the obscure ghost particle. 296 00:15:40,338 --> 00:15:43,608 It would be neutral, and carry no electric charge. 297 00:15:43,641 --> 00:15:47,779 It would be tiny, far smaller than an electron. 298 00:15:47,812 --> 00:15:52,517 And it would pass through atoms as if they weren't there at all. 299 00:15:52,550 --> 00:15:56,154 He named the particle the neutrino, 300 00:15:56,187 --> 00:15:59,458 Italian for "little neutral one." 301 00:16:01,860 --> 00:16:05,163 KAISER: This was a really quite remarkable step. 302 00:16:05,196 --> 00:16:07,532 But many physicists, Fermi included, thought 303 00:16:07,565 --> 00:16:08,834 that it should be nearly impossible-- 304 00:16:08,867 --> 00:16:10,802 perhaps impossible forever-- 305 00:16:10,835 --> 00:16:15,540 to detect such a particle even if it really exists. 306 00:16:15,573 --> 00:16:18,377 ♪ ♪ 307 00:16:18,410 --> 00:16:20,912 NARRATOR: Outside the intellectual fervor of the lab, 308 00:16:20,945 --> 00:16:23,081 fascism was about to cast a shadow 309 00:16:23,114 --> 00:16:25,851 over the neutrino mystery. 310 00:16:25,884 --> 00:16:30,355 In 1939, Fermi immigrated to the U.S.A. 311 00:16:30,388 --> 00:16:32,491 and was quickly put to work. 312 00:16:32,524 --> 00:16:34,493 He helped to develop 313 00:16:34,526 --> 00:16:37,062 the first operational nuclear reactor 314 00:16:37,095 --> 00:16:42,034 that led eventually to the atomic bomb. 315 00:16:43,768 --> 00:16:49,074 But not everybody had forgotten about the elusive neutrino. 316 00:16:49,107 --> 00:16:51,743 ♪ ♪ 317 00:16:51,776 --> 00:16:57,215 Bruno Pontecorvo, the Puppy of the Via Panisperna Boys. 318 00:16:57,248 --> 00:17:00,886 Upon moving to England after the Second World War, 319 00:17:00,919 --> 00:17:03,555 he continued to think about neutrinos 320 00:17:03,588 --> 00:17:07,526 until his life took a shocking turn. 321 00:17:07,559 --> 00:17:12,064 CLOSE: Pontecorvo was a man who created big ideas. 322 00:17:12,097 --> 00:17:15,901 The work that he did on neutrinos alone 323 00:17:15,934 --> 00:17:17,903 could have won him 324 00:17:17,936 --> 00:17:20,205 certainly one Nobel Prize, 325 00:17:20,238 --> 00:17:22,107 and been a candidate maybe for two. 326 00:17:22,140 --> 00:17:25,844 NARRATOR: But it wasn't to be. 327 00:17:25,877 --> 00:17:29,347 In 1950, in the midst of the Cold War, 328 00:17:29,380 --> 00:17:34,052 Pontecorvo and his family mysteriously went missing. 329 00:17:34,085 --> 00:17:36,154 Bruno Pontecorvo 330 00:17:36,187 --> 00:17:39,024 disappeared through the Iron Curtain in 1950, 331 00:17:39,057 --> 00:17:41,726 and for five years, 332 00:17:41,759 --> 00:17:43,862 disappeared off the face of the planet. 333 00:17:45,430 --> 00:17:47,933 NARRATOR: Only after five years of silence 334 00:17:47,966 --> 00:17:51,436 did he reappear in the Soviet Union. 335 00:17:51,469 --> 00:17:55,140 ♪ ♪ 336 00:17:55,173 --> 00:17:57,809 So, what happened? 337 00:17:57,842 --> 00:18:00,412 Was he kidnapped? 338 00:18:00,445 --> 00:18:03,682 Was he a spy? 339 00:18:03,715 --> 00:18:05,817 Professor Frank Close has spent years 340 00:18:05,850 --> 00:18:11,022 researching Pontecorvo and his mysterious disappearance. 341 00:18:11,055 --> 00:18:15,394 He has come to the British National Archives in London. 342 00:18:16,594 --> 00:18:18,497 Earlier in his life, 343 00:18:18,530 --> 00:18:21,733 Pontecorvo had been a member of a communist party. 344 00:18:21,766 --> 00:18:24,469 And there are now British intelligence files 345 00:18:24,502 --> 00:18:27,072 under his name. 346 00:18:27,105 --> 00:18:28,306 CLOSE: Looking at these 347 00:18:28,339 --> 00:18:31,042 old folders, they're worn down the sides. 348 00:18:31,075 --> 00:18:33,011 They have red stamps, "top secret." 349 00:18:33,044 --> 00:18:36,681 The case of Pontecorvo. 350 00:18:36,714 --> 00:18:39,384 It is dripping with intrigue. (chuckles) 351 00:18:39,417 --> 00:18:40,819 ♪ ♪ 352 00:18:40,852 --> 00:18:42,220 NARRATOR: After the war, 353 00:18:42,253 --> 00:18:45,524 while working for the U.K.'s atomic energy program, 354 00:18:45,557 --> 00:18:50,462 Pontecorvo devised a method to try and detect neutrinos. 355 00:18:50,495 --> 00:18:53,498 He reasoned that nuclear reactors-- 356 00:18:53,531 --> 00:18:56,401 which derive energy from splitting atoms-- 357 00:18:56,434 --> 00:19:00,105 should produce neutrinos in vast quantities. 358 00:19:00,138 --> 00:19:05,043 But the government classified his paper. 359 00:19:05,076 --> 00:19:09,648 Now, I conjecture that this paper was classified secret 360 00:19:09,681 --> 00:19:14,386 because, if you could indeed detect neutrinos 361 00:19:14,419 --> 00:19:16,621 coming from a nuclear reactor, 362 00:19:16,654 --> 00:19:18,256 you would be able to work out 363 00:19:18,289 --> 00:19:20,025 how powerful the nuclear reactor was. 364 00:19:20,058 --> 00:19:22,160 So they classified it. 365 00:19:22,193 --> 00:19:24,729 ♪ ♪ 366 00:19:24,762 --> 00:19:26,765 NARRATOR: As the Cold War escalated, 367 00:19:26,798 --> 00:19:32,370 the U.S.A. became paranoid of atomic espionage. 368 00:19:32,403 --> 00:19:36,841 In 1950, the Rosenberg spy ring was uncovered. 369 00:19:36,874 --> 00:19:39,978 And it triggered a communist witch hunt. 370 00:19:42,347 --> 00:19:44,449 A secret letter reveals the FBI 371 00:19:44,482 --> 00:19:46,818 wrote to a British intelligence service 372 00:19:46,851 --> 00:19:49,221 about Pontecorvo. 373 00:19:49,254 --> 00:19:52,991 CLOSE: "The FBI now ask if we can send them any information 374 00:19:53,024 --> 00:19:54,826 "which would indicate that Pontecorvo 375 00:19:54,859 --> 00:19:58,496 may be engaged in communist activities." 376 00:19:58,529 --> 00:20:02,567 The letter was received in London on the 19th of July. 377 00:20:02,600 --> 00:20:04,002 Five days later, 378 00:20:04,035 --> 00:20:07,672 Pontecorvo goes off to Europe and never returns. 379 00:20:07,705 --> 00:20:09,207 ♪ ♪ 380 00:20:09,240 --> 00:20:12,244 NARRATOR: Flight manifests reveal Pontecorvo and his family 381 00:20:12,277 --> 00:20:16,214 flew from Rome, across Europe, to Helsinki, 382 00:20:16,247 --> 00:20:20,252 alongside two suspected KGB agents. 383 00:20:20,285 --> 00:20:24,089 Pontecorvo's son, just 12 years old at the time, 384 00:20:24,122 --> 00:20:27,926 revealed they were then driven across the border to Moscow-- 385 00:20:27,959 --> 00:20:30,795 with Bruno in the trunk. 386 00:20:30,828 --> 00:20:31,963 CLOSE: He said to me, 387 00:20:31,996 --> 00:20:34,766 "I knew something was up." (chuckles) 388 00:20:34,799 --> 00:20:40,305 NARRATOR: Frank believes a Soviet mole passed the FBI letter to Moscow, 389 00:20:40,338 --> 00:20:45,644 who then pressured Pontecorvo to defect. 390 00:20:45,677 --> 00:20:49,080 There's no clear evidence that he had been a spy, 391 00:20:49,113 --> 00:20:51,750 but whatever his reason for leaving, 392 00:20:51,783 --> 00:20:55,620 Bruno's time in the West was over. 393 00:20:55,653 --> 00:20:57,322 CLOSE: Was he a spy or not? 394 00:20:57,355 --> 00:20:58,456 We don't yet know. 395 00:20:58,489 --> 00:20:59,924 In any event, it was clear 396 00:20:59,957 --> 00:21:02,727 that Pontecorvo was a top-quality scientist 397 00:21:02,760 --> 00:21:05,430 who had taken his brain to the Soviet Union. 398 00:21:11,636 --> 00:21:15,273 NARRATOR: By 1950, the U.S.A. and the Soviet Union 399 00:21:15,306 --> 00:21:19,244 were engaged in a nuclear arms race. 400 00:21:19,277 --> 00:21:23,715 With it came a new opportunity to hunt for neutrinos. 401 00:21:26,517 --> 00:21:30,555 KARAGIORGI: When a nuclear bomb goes off, 402 00:21:30,588 --> 00:21:35,293 there is this huge cascade of particles 403 00:21:35,326 --> 00:21:39,531 that spews out: protons, electrons, 404 00:21:39,564 --> 00:21:42,934 a lot of light particles carrying off energy. 405 00:21:42,967 --> 00:21:46,204 And along with these particles spewing out, 406 00:21:46,237 --> 00:21:49,608 lots and lots of neutrinos come out for free. 407 00:21:51,342 --> 00:21:55,647 NARRATOR: If neutrinos were real, could a nuclear weapon finally be 408 00:21:55,680 --> 00:21:57,916 the key to detect them? 409 00:21:57,949 --> 00:22:03,021 In 1951, a young American called Fred Reines 410 00:22:03,054 --> 00:22:05,256 was working on the U.S. nuclear program 411 00:22:05,289 --> 00:22:08,760 at Los Alamos National Laboratory. 412 00:22:08,793 --> 00:22:13,031 It was here that Reines, along with his colleague Clyde Cowan, 413 00:22:13,064 --> 00:22:16,668 decided to take advantage of destructive bomb tests 414 00:22:16,701 --> 00:22:21,406 to investigate the mystery of the missing neutrino. 415 00:22:21,439 --> 00:22:22,841 KAISER: Reines went back to a question 416 00:22:22,874 --> 00:22:25,110 that had been kind of abandoned in the decades 417 00:22:25,143 --> 00:22:26,778 before the Second World War, 418 00:22:26,811 --> 00:22:29,414 the question of, could physicists ever actually detect 419 00:22:29,447 --> 00:22:33,918 these very strange, elusive, ghost-like particles? 420 00:22:33,951 --> 00:22:39,357 NARRATOR: They called their mission Project Poltergeist. 421 00:22:39,390 --> 00:22:41,626 For detecting the neutrino, the good news was, 422 00:22:41,659 --> 00:22:44,162 you could calculate the chance of doing it. 423 00:22:44,195 --> 00:22:46,965 And the bad news was, it was almost zero. 424 00:22:46,998 --> 00:22:52,404 NARRATOR: Reines and Cowan needed to tip the odds in their favor, 425 00:22:52,437 --> 00:22:56,241 and knew a nuclear bomb test could be the key. 426 00:22:56,274 --> 00:22:59,577 An atom bomb should produce thousands of times 427 00:22:59,610 --> 00:23:03,315 more neutrinos than even the biggest nuclear reactor. 428 00:23:04,382 --> 00:23:07,786 But it also created a problem. 429 00:23:07,819 --> 00:23:09,754 If they had bolted the detector in place, 430 00:23:09,787 --> 00:23:10,822 the nuclear bomb would've just 431 00:23:10,855 --> 00:23:12,557 smashed it to smithereens. 432 00:23:12,590 --> 00:23:14,092 So instead, the proposal 433 00:23:14,125 --> 00:23:17,028 was to dig a shaft about 150 feet deep 434 00:23:17,061 --> 00:23:19,030 right near where the bomb would eventually 435 00:23:19,063 --> 00:23:22,100 be detonated above ground. 436 00:23:22,133 --> 00:23:24,035 NARRATOR: The team planned to drop 437 00:23:24,068 --> 00:23:29,340 a detector down the shaft to avoid the shockwave of the bomb. 438 00:23:29,373 --> 00:23:32,343 KAISER: Inside that shaft, they would pad the bottom with foam 439 00:23:32,376 --> 00:23:35,814 and feathers and kind of, like, mattress cushions. 440 00:23:38,149 --> 00:23:40,218 It was, I mean... (chuckles) 441 00:23:40,251 --> 00:23:42,253 ...a creative, ambitious, 442 00:23:42,286 --> 00:23:44,656 and maybe slightly crazy kind of idea 443 00:23:44,689 --> 00:23:46,491 to try to catch these neutrinos in the midst 444 00:23:46,524 --> 00:23:49,227 of this very dramatic, very worldly set of events 445 00:23:49,260 --> 00:23:51,362 in the early years of the Cold War. 446 00:23:51,395 --> 00:23:53,097 ♪ ♪ 447 00:23:53,130 --> 00:23:55,533 NARRATOR: Work digging the shaft had begun, 448 00:23:55,566 --> 00:23:58,903 but the head of physics at Los Alamos was concerned 449 00:23:58,936 --> 00:24:02,240 that the experiment couldn't be repeated. 450 00:24:02,273 --> 00:24:06,311 He urged the team to find another way. 451 00:24:06,344 --> 00:24:10,181 Couldn't they use a nuclear reactor instead? 452 00:24:10,214 --> 00:24:14,653 Late one evening, Reines and Cowan had a realization. 453 00:24:17,421 --> 00:24:20,892 In the same way that the nucleus of an atom could decay 454 00:24:20,925 --> 00:24:24,863 and release a neutrino, they knew in theory 455 00:24:24,896 --> 00:24:28,566 the process should be reversible. 456 00:24:28,599 --> 00:24:32,971 On the rare occasion a neutrino could interact with a nucleus, 457 00:24:33,004 --> 00:24:36,207 it should produce two new particles, 458 00:24:36,240 --> 00:24:39,444 called a neutron and a positron. 459 00:24:39,477 --> 00:24:42,580 And if they traveled through the right medium, 460 00:24:42,613 --> 00:24:45,984 those two telltale particles should produce 461 00:24:46,017 --> 00:24:49,521 two distinctive flashes of light. 462 00:24:49,554 --> 00:24:54,058 KARAGIORGI: So Reines and Cowan built a detector, 463 00:24:54,091 --> 00:24:58,930 essentially a big tank filled with a solvent 464 00:24:58,963 --> 00:25:00,932 that could pick up 465 00:25:00,965 --> 00:25:05,503 this two coincident signal blip 466 00:25:05,536 --> 00:25:08,606 deep under a nuclear reactor. 467 00:25:08,639 --> 00:25:13,978 ♪ ♪ 468 00:25:14,011 --> 00:25:16,814 NARRATOR: After five years of experiments, 469 00:25:16,847 --> 00:25:21,887 in 1956, finally, they got their answer. 470 00:25:24,255 --> 00:25:26,758 ♪ ♪ 471 00:25:26,791 --> 00:25:30,295 They recorded the two telltale flashes of light. 472 00:25:30,328 --> 00:25:32,096 ♪ ♪ 473 00:25:32,129 --> 00:25:34,832 For the first time, they saw evidence 474 00:25:34,865 --> 00:25:37,869 of the elusive neutrino. 475 00:25:37,902 --> 00:25:40,371 What they had done was a remarkable achievement, 476 00:25:40,404 --> 00:25:43,708 one that seemed impossible. 477 00:25:43,741 --> 00:25:44,909 ♪ ♪ 478 00:25:44,942 --> 00:25:46,544 KAISER: Neutrinos exist. 479 00:25:46,577 --> 00:25:49,480 They're real and they're part of the world. 480 00:25:49,513 --> 00:25:51,516 They're not only a clever idea. 481 00:25:56,387 --> 00:25:58,189 Knowing neutrinos exist 482 00:25:58,222 --> 00:26:00,558 put a whole extra set of investigations 483 00:26:00,591 --> 00:26:02,694 on a kind of firmer path. 484 00:26:02,727 --> 00:26:04,495 ♪ ♪ 485 00:26:04,528 --> 00:26:10,134 NARRATOR: If neutrinos were pouring from nuclear reactors on Earth, 486 00:26:10,167 --> 00:26:11,703 then surely they would be generated 487 00:26:11,736 --> 00:26:16,207 in abundance in the largest nuclear furnaces of all. 488 00:26:17,775 --> 00:26:20,411 Stars. 489 00:26:20,444 --> 00:26:22,080 KAISER: For a long, long time, 490 00:26:22,113 --> 00:26:24,916 scientists have been wondering, what makes the stars shine? 491 00:26:24,949 --> 00:26:28,286 What drives that enormous output of energy? 492 00:26:28,319 --> 00:26:30,054 ♪ ♪ 493 00:26:30,087 --> 00:26:35,727 KARAGIORGI: People theorized that our sun is like a giant nuclear reactor, 494 00:26:35,760 --> 00:26:40,031 except, rather than heavier elements breaking down 495 00:26:40,064 --> 00:26:43,668 into smaller ones and releasing energy, 496 00:26:43,701 --> 00:26:47,105 you have lighter elements that fuse together 497 00:26:47,138 --> 00:26:48,506 through nuclear fusion. 498 00:26:48,539 --> 00:26:51,175 ♪ ♪ 499 00:26:51,208 --> 00:26:52,810 NARRATOR: In the heart of the sun, 500 00:26:52,843 --> 00:26:56,280 tremendous heat and pressure force hydrogen nuclei 501 00:26:56,313 --> 00:26:59,184 to fuse together to make helium. 502 00:27:00,818 --> 00:27:05,690 And, in theory, vast quantities of neutrinos 503 00:27:05,723 --> 00:27:11,096 that pass freely through the sun and out into space. 504 00:27:14,365 --> 00:27:17,835 So if we could detect neutrinos from the sun, 505 00:27:17,868 --> 00:27:22,006 we could learn about the processes that fuel it. 506 00:27:22,039 --> 00:27:27,045 We could peek inside the core of our sun. 507 00:27:30,214 --> 00:27:33,484 NARRATOR: In the historic gold mining town of Lead, 508 00:27:33,517 --> 00:27:37,255 people descend into the depths of the Earth. 509 00:27:37,288 --> 00:27:39,157 (indistinct chatter) 510 00:27:39,190 --> 00:27:41,959 NARRATOR: But no longer to mine precious metal. 511 00:27:41,992 --> 00:27:46,664 They're hunting for neutrinos. 512 00:27:46,697 --> 00:27:49,701 It was here in 1965 513 00:27:49,734 --> 00:27:52,837 that an experimentalist called Ray Davis 514 00:27:52,870 --> 00:27:57,341 came to try and prove what makes the sun shine. 515 00:27:57,374 --> 00:27:59,610 KAISER: Ray Davis got very excited 516 00:27:59,643 --> 00:28:02,747 that there is this new thing in the world called a neutrino. 517 00:28:02,780 --> 00:28:05,616 He began realizing that other kinds of nuclear reactors 518 00:28:05,649 --> 00:28:08,386 that occur throughout the universe, like stars, 519 00:28:08,419 --> 00:28:11,389 they should be spewing out these neutrinos all the time. 520 00:28:11,422 --> 00:28:16,194 NARRATOR: But catching them wouldn't be easy. 521 00:28:16,227 --> 00:28:19,697 Calculations showed that neutrinos from the sun 522 00:28:19,730 --> 00:28:23,101 would be so faint, a detector near the Earth's surface 523 00:28:23,134 --> 00:28:26,404 would be overwhelmed by background radiation. 524 00:28:26,437 --> 00:28:31,909 His only option was to go to the bottom of a mine. 525 00:28:31,942 --> 00:28:35,713 Beneath almost a mile of solid rock, Davis's team built 526 00:28:35,746 --> 00:28:38,216 a steel tank the size of a house 527 00:28:38,249 --> 00:28:40,985 and filled it with 100,000 gallons 528 00:28:41,018 --> 00:28:43,621 of dry-cleaning fluid. 529 00:28:45,689 --> 00:28:48,760 In theory, if a neutrino from the sun 530 00:28:48,793 --> 00:28:52,964 collided with a chlorine atom inside the tank, 531 00:28:52,997 --> 00:28:57,602 it would cause a reaction that Ray Davis could detect. 532 00:28:57,635 --> 00:29:01,239 CLOSE: Here was something that was completely fresh. 533 00:29:01,272 --> 00:29:03,407 Nobody knew anything about it. 534 00:29:03,440 --> 00:29:07,912 But the key thing was that if neutrinos hit chlorine, 535 00:29:07,945 --> 00:29:09,881 which you could get in cleaning fluid, 536 00:29:09,914 --> 00:29:11,482 it would turn the atoms of chlorine 537 00:29:11,515 --> 00:29:14,152 into a radioactive form of argon. 538 00:29:14,185 --> 00:29:15,686 And that's when Davis got excited, 539 00:29:15,719 --> 00:29:19,090 because he was a radiochemist, and for him, 540 00:29:19,123 --> 00:29:25,063 detecting radioactive forms of argon was easy street. 541 00:29:26,497 --> 00:29:28,299 NARRATOR: Scientists had calculated 542 00:29:28,332 --> 00:29:31,903 that around a million trillion neutrinos from the sun 543 00:29:31,936 --> 00:29:36,174 should pass through Davis's tank each minute. 544 00:29:36,207 --> 00:29:38,609 But the probability of them hitting the fluid 545 00:29:38,642 --> 00:29:42,480 and making an argon atom was so small, 546 00:29:42,513 --> 00:29:44,816 Ray Davis could only expect to find 547 00:29:44,849 --> 00:29:47,518 ten individual atoms of argon 548 00:29:47,551 --> 00:29:51,856 from ten neutrino collisions per week. 549 00:29:51,889 --> 00:29:54,826 JAYAWARDHANA: His task was almost impossible. 550 00:29:54,859 --> 00:29:58,162 Many of his own physicist colleagues doubted 551 00:29:58,195 --> 00:30:00,431 this experiment would ever work. 552 00:30:00,464 --> 00:30:02,433 ♪ ♪ 553 00:30:02,466 --> 00:30:03,868 CLOSE: He was having to convince people 554 00:30:03,901 --> 00:30:05,136 that out of these millions and millions and millions 555 00:30:05,169 --> 00:30:07,405 and millions of atoms inside this tank, 556 00:30:07,438 --> 00:30:10,875 he could identify the collisions of one or two 557 00:30:10,908 --> 00:30:14,278 and convince you that these were neutrinos coming from the sun. 558 00:30:14,311 --> 00:30:18,783 NARRATOR: Around each month, Davis flushed out the giant tank 559 00:30:18,816 --> 00:30:21,486 to extract the argon atoms. 560 00:30:22,820 --> 00:30:24,722 To everybody's amazement, 561 00:30:24,755 --> 00:30:27,291 he found them. 562 00:30:27,324 --> 00:30:31,529 (machine whirring) 563 00:30:32,563 --> 00:30:35,099 But there was a problem. 564 00:30:35,132 --> 00:30:39,503 Instead of detecting the number of atoms that theory predicted, 565 00:30:39,536 --> 00:30:42,740 his measurements fell short. 566 00:30:42,773 --> 00:30:44,342 KAISER: They knew the target number based on 567 00:30:44,375 --> 00:30:47,044 the nuclear physics theoretical explanation 568 00:30:47,077 --> 00:30:48,679 of how stars shine, 569 00:30:48,712 --> 00:30:51,649 and that led to a very particular target number. 570 00:30:51,682 --> 00:30:53,751 And Davis's remarkable experiment 571 00:30:53,784 --> 00:30:56,487 kept coming in not close to it, not 80 percent, 572 00:30:56,520 --> 00:30:59,390 but only at one-third of that target number. 573 00:30:59,423 --> 00:31:02,727 NARRATOR: What happened? 574 00:31:02,760 --> 00:31:04,962 Had the experiment gone wrong? 575 00:31:04,995 --> 00:31:08,399 Another scientist carried out a blind trial 576 00:31:08,432 --> 00:31:11,302 to test the accuracy of Ray's atom detection. 577 00:31:11,335 --> 00:31:15,640 KAISER: A colleague put in 500 kind of rogue atoms 578 00:31:15,673 --> 00:31:17,575 without telling Davis the number. 579 00:31:17,608 --> 00:31:19,744 And Davis was able to go through the whole process, 580 00:31:19,777 --> 00:31:21,279 sift it through, 581 00:31:21,312 --> 00:31:23,347 and he counted exactly the number that had been put in. 582 00:31:23,380 --> 00:31:27,084 NARRATOR: If the experimental results were accurate, 583 00:31:27,117 --> 00:31:30,021 then perhaps scientists had gotten their theory 584 00:31:30,054 --> 00:31:33,357 about neutrinos from the sun wrong. 585 00:31:33,390 --> 00:31:34,959 CLOSE: Everybody was blaming everybody else. 586 00:31:34,992 --> 00:31:36,627 There were even suggestions, 587 00:31:36,660 --> 00:31:39,931 has the sun already burnt out in the core? 588 00:31:39,964 --> 00:31:41,499 It was just an enormous puzzle. 589 00:31:41,532 --> 00:31:44,568 All these advances in understanding how stars shine, 590 00:31:44,601 --> 00:31:46,804 and then hitting this kind of brick wall 591 00:31:46,837 --> 00:31:50,308 where theory and experiment just would not agree with each other. 592 00:31:52,710 --> 00:31:57,215 NARRATOR: The puzzle became known as the solar neutrino problem. 593 00:31:59,650 --> 00:32:01,786 ♪ ♪ 594 00:32:01,819 --> 00:32:03,421 1970, 595 00:32:03,454 --> 00:32:05,823 20 years since Bruno Pontecorvo 596 00:32:05,856 --> 00:32:08,826 defected to the Soviet Union. 597 00:32:08,859 --> 00:32:10,328 ♪ ♪ 598 00:32:10,361 --> 00:32:12,363 Even after all that time, 599 00:32:12,396 --> 00:32:16,267 his life behind the Iron Curtain remained shrouded in secrecy. 600 00:32:18,068 --> 00:32:21,172 But in a government lab outside Moscow, 601 00:32:21,205 --> 00:32:23,741 Pontecorvo worked tirelessly to explain 602 00:32:23,774 --> 00:32:26,911 the puzzling behavior of neutrinos. 603 00:32:29,446 --> 00:32:33,551 He suggested that instead of just one, 604 00:32:33,584 --> 00:32:37,755 there may be two or even three different kinds of neutrino-- 605 00:32:37,788 --> 00:32:42,259 known as different flavors. 606 00:32:42,292 --> 00:32:45,396 ♪ ♪ 607 00:32:45,429 --> 00:32:48,699 If this wasn't strange enough, he calculated that something 608 00:32:48,732 --> 00:32:52,737 peculiar might happen as they traveled through space. 609 00:32:55,773 --> 00:33:00,911 A neutrino would always be born as one definite flavor, 610 00:33:00,944 --> 00:33:05,049 but over time, it would change its identity. 611 00:33:05,082 --> 00:33:09,220 It would transform, mixing back and forth 612 00:33:09,253 --> 00:33:13,424 between the three different types. 613 00:33:13,457 --> 00:33:17,561 This was called neutrino oscillation. 614 00:33:17,594 --> 00:33:22,166 ♪ ♪ 615 00:33:22,199 --> 00:33:25,703 Pontecorvo's idea really is, it's, it's sort of delicious. 616 00:33:25,736 --> 00:33:30,341 These neutrinos could be not taking one identity, 617 00:33:30,374 --> 00:33:33,878 dropping that, adopting another one, dropping that, 618 00:33:33,911 --> 00:33:35,546 but going into this even stranger mixture, 619 00:33:35,579 --> 00:33:38,449 where they're in neither and both states at once. 620 00:33:38,482 --> 00:33:40,985 NARRATOR: It was a bold idea. 621 00:33:41,018 --> 00:33:43,154 No other fundamental particle 622 00:33:43,187 --> 00:33:46,657 seemed to spontaneously change its identity. 623 00:33:46,690 --> 00:33:49,126 But if neutrinos were transforming into flavors 624 00:33:49,159 --> 00:33:52,329 that Ray Davis's detector couldn't see, 625 00:33:52,362 --> 00:33:55,599 it might explain why two-thirds of the neutrinos 626 00:33:55,632 --> 00:33:58,669 from the sun appeared to be missing. 627 00:34:00,537 --> 00:34:02,306 But there was a catch. 628 00:34:02,339 --> 00:34:04,275 The Standard Model, 629 00:34:04,308 --> 00:34:07,611 the most precise scientific theory in human history, 630 00:34:07,644 --> 00:34:11,249 made one important prediction that stood in the way. 631 00:34:13,584 --> 00:34:15,086 PEREZ: The Standard Model anticipated 632 00:34:15,119 --> 00:34:17,655 neutrinos would be completely massless. 633 00:34:17,688 --> 00:34:21,092 They would have no mass at all, much like the photon of light. 634 00:34:21,125 --> 00:34:23,727 And if they had no mass, 635 00:34:23,760 --> 00:34:26,530 that meant that they could not oscillate. 636 00:34:26,563 --> 00:34:29,767 NARRATOR: If neutrinos had no mass, 637 00:34:29,800 --> 00:34:32,703 one of Albert Einstein's most important theories 638 00:34:32,736 --> 00:34:36,774 predicted that neutrinos could not possibly oscillate. 639 00:34:39,510 --> 00:34:41,245 KAISER: There is this mind-boggling phenomenon 640 00:34:41,278 --> 00:34:43,314 from Einstein's relativity 641 00:34:43,347 --> 00:34:45,783 that says that a clock that is moving closer 642 00:34:45,816 --> 00:34:47,284 and closer to the speed of light 643 00:34:47,317 --> 00:34:50,621 will tick at a slower and slower rate. 644 00:34:50,654 --> 00:34:53,124 If that clock were moving literally at the speed of light, 645 00:34:53,157 --> 00:34:54,692 it would never tick at all. 646 00:34:54,725 --> 00:34:56,794 No time would pass for that object 647 00:34:56,827 --> 00:34:59,263 that moves at exactly the speed of light. 648 00:34:59,296 --> 00:35:02,199 NARRATOR: According to Einstein's theories, 649 00:35:02,232 --> 00:35:04,568 the faster a particle travels, 650 00:35:04,601 --> 00:35:08,239 the more its internal clock slows down. 651 00:35:08,272 --> 00:35:13,511 A particle with no mass can only travel at the speed of light, 652 00:35:13,544 --> 00:35:15,680 which is where time stops. 653 00:35:18,348 --> 00:35:20,985 So if a neutrino had zero mass, 654 00:35:21,018 --> 00:35:23,821 it would not experience the passage of time, 655 00:35:23,854 --> 00:35:29,627 and would never be able to change. 656 00:35:29,660 --> 00:35:31,996 If a particle has zero mass, 657 00:35:32,029 --> 00:35:35,733 what that means is that its internal clock is not ticking. 658 00:35:35,766 --> 00:35:39,770 There's no way for that particle to experience time. 659 00:35:39,803 --> 00:35:41,739 If there's no passage of time, 660 00:35:41,772 --> 00:35:44,808 then how could they change over time from one identity 661 00:35:44,841 --> 00:35:47,444 to another? 662 00:35:47,477 --> 00:35:50,981 NARRATOR: If neutrino oscillation was real, 663 00:35:51,014 --> 00:35:54,418 neutrinos must have some mass. 664 00:35:54,451 --> 00:35:59,790 But could the Standard Model really be wrong? 665 00:35:59,823 --> 00:36:02,960 ♪ ♪ 666 00:36:02,993 --> 00:36:06,697 Throughout the 1950s and '60s, clues from experiments 667 00:36:06,730 --> 00:36:10,100 performed at CERN, alongside Fermilab, 668 00:36:10,133 --> 00:36:14,205 helped to lay the foundation of the Standard Model. 669 00:36:14,238 --> 00:36:17,975 What they found revolutionized our understanding 670 00:36:18,008 --> 00:36:20,744 of the particles that make up our universe. 671 00:36:20,777 --> 00:36:24,715 FILM NARRATOR: By means of this machine, it is possible to see 672 00:36:24,748 --> 00:36:25,883 the tracks of sub-nuclear particles, 673 00:36:25,916 --> 00:36:29,286 the smallest particles known to man: 674 00:36:29,319 --> 00:36:32,256 the electron, the positron, 675 00:36:32,289 --> 00:36:34,992 the photon, and the neutrino... 676 00:36:37,628 --> 00:36:39,630 NARRATOR: Over the years, work at CERN 677 00:36:39,663 --> 00:36:41,632 led to groundbreaking new technologies: 678 00:36:41,665 --> 00:36:46,003 medical advances like PET scans; 679 00:36:46,036 --> 00:36:49,907 even the birth of the World Wide Web. 680 00:36:52,209 --> 00:36:56,714 Perhaps CERN's biggest success came in 2012. 681 00:36:56,747 --> 00:36:59,817 Nearly 50 years after the Standard Model was proposed, 682 00:36:59,850 --> 00:37:02,920 physicists detected the final particle 683 00:37:02,953 --> 00:37:07,225 it predicted-- the Higgs boson. 684 00:37:08,525 --> 00:37:10,661 I think we have it. 685 00:37:10,694 --> 00:37:12,663 (cheers and applause) 686 00:37:22,005 --> 00:37:24,675 NARRATOR: Finally, all the pieces needed 687 00:37:24,708 --> 00:37:27,478 to describe the detectable physical universe 688 00:37:27,511 --> 00:37:31,048 seemed to be in place. 689 00:37:31,081 --> 00:37:34,585 Along with the Higgs boson, there are force carriers, 690 00:37:34,618 --> 00:37:37,454 like the photon of light. 691 00:37:37,487 --> 00:37:41,692 Quarks, which form the nuclei of atoms. 692 00:37:41,725 --> 00:37:47,264 Leptons, including the electron, muon, and tau. 693 00:37:47,297 --> 00:37:51,735 And three corresponding flavors of neutrinos. 694 00:37:51,768 --> 00:37:54,571 KAISER: It is a map of what's out there, 695 00:37:54,604 --> 00:37:57,741 what we're made of, and how we fit-- all of us. 696 00:37:57,774 --> 00:38:00,878 We are made of these things. 697 00:38:00,911 --> 00:38:02,546 And that is a kind of basic understanding 698 00:38:02,579 --> 00:38:04,481 of nature, of our own world, 699 00:38:04,514 --> 00:38:06,984 that I, I think is, is just a remarkable 700 00:38:07,017 --> 00:38:09,220 human achievement. 701 00:38:10,987 --> 00:38:13,257 NARRATOR: And yet, for all its success, 702 00:38:13,290 --> 00:38:16,226 the Standard Model had no equations to explain 703 00:38:16,259 --> 00:38:20,298 how or why the neutrinos would have mass. 704 00:38:25,001 --> 00:38:28,339 For Ray Davis and his missing solar neutrinos, 705 00:38:28,372 --> 00:38:32,877 it seemed an unsolvable paradox. 706 00:38:34,177 --> 00:38:37,548 For decades, Davis persists, 707 00:38:37,581 --> 00:38:40,651 but he still only finds one-third of the neutrinos 708 00:38:40,684 --> 00:38:43,587 that were supposed to be coming from the sun. 709 00:38:45,055 --> 00:38:48,459 Well, we've been carrying on this experiment 710 00:38:48,492 --> 00:38:51,295 for about 20 years right here. 711 00:38:51,328 --> 00:38:56,634 But we're still observing a low flux of neutrinos. 712 00:38:58,135 --> 00:39:01,905 NARRATOR: Eventually, the problem is too big to ignore. 713 00:39:01,938 --> 00:39:06,076 In the 1990s, scientists in Canada and Japan 714 00:39:06,109 --> 00:39:10,481 construct a new generation of supersized neutrino detectors 715 00:39:10,514 --> 00:39:13,250 to finally settle the mystery. 716 00:39:13,283 --> 00:39:16,153 (explosion roars) 717 00:39:16,186 --> 00:39:20,791 One of them lies deep beneath Japan's Ikeno Mountain. 718 00:39:20,824 --> 00:39:24,561 Scientists fit 11,000 light detectors 719 00:39:24,594 --> 00:39:26,964 to the inside of a gigantic container 720 00:39:26,997 --> 00:39:33,504 and fill it with 50,000 tons of ultra-pure water. 721 00:39:33,537 --> 00:39:39,943 This $100 million detector is named Super-K. 722 00:39:39,976 --> 00:39:43,580 The Super-K experiment ended up being a game-changer. 723 00:39:43,613 --> 00:39:47,251 NARRATOR: In the rare event that a neutrino collides 724 00:39:47,284 --> 00:39:49,887 with the liquid in Super-K, 725 00:39:49,920 --> 00:39:51,722 the reaction produces a trail of light 726 00:39:51,755 --> 00:39:54,725 which the sensors can pick up. 727 00:39:54,758 --> 00:39:56,727 Unlike Davis's detector, 728 00:39:56,760 --> 00:40:00,063 this signal allows scientists to calculate 729 00:40:00,096 --> 00:40:02,533 which type of neutrino has hit 730 00:40:02,566 --> 00:40:04,435 and the direction it came from. 731 00:40:04,468 --> 00:40:07,738 Super-K allows scientists 732 00:40:07,771 --> 00:40:11,175 to test the theory of neutrino oscillation 733 00:40:11,208 --> 00:40:13,644 by catching them from a new source: 734 00:40:13,677 --> 00:40:15,379 the Earth's atmosphere. 735 00:40:15,412 --> 00:40:18,148 ♪ ♪ 736 00:40:18,181 --> 00:40:20,851 Theory suggests that when radiation from space 737 00:40:20,884 --> 00:40:24,221 hits the atmosphere, it creates neutrinos 738 00:40:24,254 --> 00:40:28,592 that travel directly through the Earth. 739 00:40:28,625 --> 00:40:31,395 Some travel a short distance, 740 00:40:31,428 --> 00:40:35,899 but others will come from the other side of the planet 741 00:40:35,932 --> 00:40:39,036 to reach the detector. 742 00:40:39,069 --> 00:40:41,605 If the neutrinos are not changing, 743 00:40:41,638 --> 00:40:43,807 the combination of flavors they record 744 00:40:43,840 --> 00:40:46,443 coming from a short distance will be the same 745 00:40:46,476 --> 00:40:49,713 as those coming from afar. 746 00:40:49,746 --> 00:40:53,183 If they are changing over a long distance, 747 00:40:53,216 --> 00:40:58,422 the combination of flavors will be different. 748 00:41:00,690 --> 00:41:03,527 After two years of recording data, 749 00:41:03,560 --> 00:41:06,163 the team finally has an answer. 750 00:41:08,231 --> 00:41:10,133 KARAGIORGI: What they were seeing was that 751 00:41:10,166 --> 00:41:13,136 one type of neutrinos was depleting 752 00:41:13,169 --> 00:41:17,040 when traveling through the Earth. 753 00:41:17,073 --> 00:41:21,612 The Super-K results combined with results 754 00:41:21,645 --> 00:41:22,779 from another experiment 755 00:41:22,812 --> 00:41:26,316 were able to definitively show 756 00:41:26,349 --> 00:41:31,255 that neutrinos can change from one type to the other. 757 00:41:31,288 --> 00:41:33,790 For that to happen, 758 00:41:33,823 --> 00:41:36,493 you must have non-zero neutrino mass. 759 00:41:36,526 --> 00:41:40,531 NARRATOR: The results are groundbreaking. 760 00:41:40,564 --> 00:41:43,667 Neutrinos change their identity. 761 00:41:43,700 --> 00:41:47,271 Neutrinos have mass after all. 762 00:41:47,304 --> 00:41:49,172 And the Standard Model's prediction 763 00:41:49,205 --> 00:41:53,577 of the nature of neutrinos must be wrong. 764 00:41:53,610 --> 00:41:54,912 KAISER: With the new input, 765 00:41:54,945 --> 00:41:57,447 the evidence that neutrinos really oscillate, 766 00:41:57,480 --> 00:41:58,949 they really change their identities, 767 00:41:58,982 --> 00:42:01,385 therefore they really, really have a mass, 768 00:42:01,418 --> 00:42:04,187 this long-standing, decades-long challenge 769 00:42:04,220 --> 00:42:05,689 to understand the solar neutrino problem 770 00:42:05,722 --> 00:42:09,526 finally fell into place. 771 00:42:09,559 --> 00:42:12,029 NARRATOR: Nuclear fusion in the sun 772 00:42:12,062 --> 00:42:15,265 produces one type of neutrino. 773 00:42:15,298 --> 00:42:18,235 But on the long journey through space, 774 00:42:18,268 --> 00:42:20,203 the neutrinos oscillate, 775 00:42:20,236 --> 00:42:24,474 and turn into a mixture of all three. 776 00:42:24,507 --> 00:42:27,144 On Earth, 777 00:42:27,177 --> 00:42:32,115 Ray Davis's detector only picked out one flavor. 778 00:42:32,148 --> 00:42:36,654 His results had been accurate all along. 779 00:42:39,956 --> 00:42:43,460 37 years after the experiment began, 780 00:42:43,493 --> 00:42:45,829 Ray Davis was awarded the Nobel Prize. 781 00:42:45,862 --> 00:42:49,967 (cheers and applause) 782 00:42:51,868 --> 00:42:55,606 For Bruno Pontecorvo and his theory of oscillations, 783 00:42:55,639 --> 00:43:00,077 sadly, the discovery came too late. 784 00:43:00,110 --> 00:43:01,812 CLOSE: Nobel Prizes aren't everything, 785 00:43:01,845 --> 00:43:04,748 but by the time the oscillations had been sorted out 786 00:43:04,781 --> 00:43:07,184 and the whole thing finally understood, 787 00:43:07,217 --> 00:43:09,720 Pontecorvo was dead. 788 00:43:09,753 --> 00:43:13,757 So that's the final tragedy of his life. 789 00:43:18,695 --> 00:43:22,899 NARRATOR: After almost 100 years of research and discovery, 790 00:43:22,932 --> 00:43:25,736 today, neutrino physicists face 791 00:43:25,769 --> 00:43:28,472 perhaps their biggest puzzle yet. 792 00:43:28,505 --> 00:43:31,775 The Standard Model's equations, 793 00:43:31,808 --> 00:43:34,611 which are so precise for other particles, 794 00:43:34,644 --> 00:43:40,550 cannot explain why neutrinos have mass or why they oscillate. 795 00:43:40,583 --> 00:43:42,753 It's a sign that our understanding of matter 796 00:43:42,786 --> 00:43:45,322 is still incomplete. 797 00:43:45,355 --> 00:43:47,524 ♪ ♪ 798 00:43:47,557 --> 00:43:50,060 Today, neutrino experiments are in overdrive, 799 00:43:50,093 --> 00:43:51,862 hunting for clues. 800 00:43:51,895 --> 00:43:53,930 KAISER: We're in the midst of, really, 801 00:43:53,963 --> 00:43:56,700 a neutrino bonanza-- I mean, they're just, they're popping up 802 00:43:56,733 --> 00:43:59,369 all over the field of physics. 803 00:43:59,402 --> 00:44:01,204 ♪ ♪ 804 00:44:01,237 --> 00:44:02,539 NARRATOR: At the South Pole, 805 00:44:02,572 --> 00:44:04,574 scientists have built 806 00:44:04,607 --> 00:44:09,112 the largest neutrino detector on the planet. 807 00:44:09,145 --> 00:44:12,282 It's made of more than 5,000 sensors drilled into 808 00:44:12,315 --> 00:44:16,186 a cubic kilometer of Antarctic ice. 809 00:44:16,219 --> 00:44:18,689 It's known as IceCube. 810 00:44:18,722 --> 00:44:21,291 ♪ ♪ 811 00:44:21,324 --> 00:44:22,726 KAEL HANSON: IceCube is in this, 812 00:44:22,759 --> 00:44:24,127 this huge field around me-- I'm sitting, 813 00:44:24,160 --> 00:44:27,998 kind of standing in the middle of IceCube. 814 00:44:28,031 --> 00:44:29,533 It's kind of amazing to think 815 00:44:29,566 --> 00:44:32,202 that we were able to haul something like 816 00:44:32,235 --> 00:44:33,203 five million pounds of cargo 817 00:44:33,236 --> 00:44:35,505 down to the South Pole-- this is 818 00:44:35,538 --> 00:44:37,908 instrumentation, cables, drill equipment, 819 00:44:37,941 --> 00:44:39,943 fuel... 820 00:44:39,976 --> 00:44:45,015 NARRATOR: As well as probing neutrino oscillations, 821 00:44:45,048 --> 00:44:47,417 IceCube acts like a neutrino telescope, 822 00:44:47,450 --> 00:44:48,952 catching cosmic neutrinos 823 00:44:48,985 --> 00:44:52,556 from billions of light years away. 824 00:44:52,589 --> 00:44:53,990 This is the universe that has really 825 00:44:54,023 --> 00:44:56,727 only been opened to our eyes for the last 50 years. 826 00:44:56,760 --> 00:44:58,195 ♪ ♪ 827 00:44:58,228 --> 00:45:01,432 There's all kinds of discoveries that are waiting out there. 828 00:45:02,532 --> 00:45:05,569 NARRATOR: With new experiments like IceCube, 829 00:45:05,602 --> 00:45:09,306 scientists believe that neutrinos may reveal discoveries 830 00:45:09,339 --> 00:45:12,142 beyond the Standard Model. 831 00:45:13,743 --> 00:45:15,245 Neutrinos could even help unlock 832 00:45:15,278 --> 00:45:18,982 one of the biggest mysteries in physics today. 833 00:45:19,015 --> 00:45:20,650 ♪ ♪ 834 00:45:20,683 --> 00:45:23,687 It seems that most of what our universe is made of 835 00:45:23,720 --> 00:45:26,957 is missing. 836 00:45:28,258 --> 00:45:30,861 PEREZ: The whole quest of particle physics 837 00:45:30,894 --> 00:45:34,731 is to explain the matter contents of the universe. 838 00:45:34,764 --> 00:45:39,703 And we seem to be doing this phenomenally good job. 839 00:45:39,736 --> 00:45:41,438 You crank through the math of the Standard Model, 840 00:45:41,471 --> 00:45:44,241 and everything makes sense. 841 00:45:44,274 --> 00:45:48,445 And yet it only describes some very small fraction 842 00:45:48,478 --> 00:45:50,414 of what the universe is made out of. 843 00:45:52,515 --> 00:45:55,786 NARRATOR: Looking into space, 844 00:45:55,819 --> 00:45:58,789 cosmologists can see the gravitational influence 845 00:45:58,822 --> 00:46:03,293 of a material that binds entire galaxies together, 846 00:46:03,326 --> 00:46:08,465 but that is completely invisible to their detectors. 847 00:46:08,498 --> 00:46:12,502 Scientists call this material dark matter, 848 00:46:12,535 --> 00:46:18,074 because nothing in the Standard Model can describe what it is. 849 00:46:18,107 --> 00:46:20,010 And yet, it seems to be 850 00:46:20,043 --> 00:46:24,848 what most of the matter in the universe is made of. 851 00:46:24,881 --> 00:46:28,351 CLOSE: The Standard Model is very good at describing 852 00:46:28,384 --> 00:46:31,888 about five percent of the universe. 853 00:46:31,921 --> 00:46:34,658 95% of the stuff is an utter, complete mystery, 854 00:46:34,691 --> 00:46:37,928 made of dark stuff, whether it's dark matter or dark energy. 855 00:46:37,961 --> 00:46:41,398 And what either of those are, we don't know. 856 00:46:41,431 --> 00:46:43,600 All we really know about dark matter 857 00:46:43,633 --> 00:46:45,168 is that it creates gravity, 858 00:46:45,201 --> 00:46:48,305 but it's not interacting with the instruments 859 00:46:48,338 --> 00:46:52,142 that we have used to observe the universe. 860 00:46:52,175 --> 00:46:54,377 KAISER: Whatever is filling space, 861 00:46:54,410 --> 00:46:56,313 much more of it than the ordinary matter 862 00:46:56,346 --> 00:46:59,249 that makes up us and our planet and our stars, 863 00:46:59,282 --> 00:47:02,018 it's some other, other kind of particle. 864 00:47:02,051 --> 00:47:05,989 NARRATOR: Whatever dark matter particles are, 865 00:47:06,022 --> 00:47:11,628 scientists must look beyond the Standard Model to find them. 866 00:47:11,661 --> 00:47:15,866 Neutrinos might be the key. 867 00:47:15,899 --> 00:47:21,605 ♪ ♪ 868 00:47:21,638 --> 00:47:24,774 At Fermilab, for over 20 years, 869 00:47:24,807 --> 00:47:27,010 scientists have been investigating 870 00:47:27,043 --> 00:47:29,045 neutrino oscillations. 871 00:47:29,078 --> 00:47:31,214 What they've found 872 00:47:31,247 --> 00:47:33,416 doesn't add up. 873 00:47:33,449 --> 00:47:36,720 ZELLER: The first observation that something was amiss 874 00:47:36,753 --> 00:47:40,290 was in the late 1990s. 875 00:47:40,323 --> 00:47:43,693 Something we don't quite understand is going on. 876 00:47:43,726 --> 00:47:46,129 ♪ ♪ 877 00:47:46,162 --> 00:47:49,933 NARRATOR: At Fermilab, scientists fired a beam of neutrinos 878 00:47:49,966 --> 00:47:53,937 just 500 yards to their detector. 879 00:47:53,970 --> 00:47:55,805 Neutrinos oscillate too slowly 880 00:47:55,838 --> 00:47:57,540 for the detector to see them change 881 00:47:57,573 --> 00:48:00,143 over such a short distance-- 882 00:48:00,176 --> 00:48:04,047 at least according to theory. 883 00:48:04,080 --> 00:48:06,850 But the detectors saw an increase in one type 884 00:48:06,883 --> 00:48:10,320 of neutrinos. 885 00:48:10,353 --> 00:48:12,455 Neutrinos seem to oscillate faster 886 00:48:12,488 --> 00:48:16,359 than is theoretically possible. 887 00:48:16,392 --> 00:48:18,128 KARAGIORGI: The strange thing 888 00:48:18,161 --> 00:48:24,034 that we're seeing is that neutrinos seem to be 889 00:48:24,067 --> 00:48:27,470 changing from one type to the other 890 00:48:27,503 --> 00:48:29,773 much faster than expected. 891 00:48:29,806 --> 00:48:33,143 In order for that to happen, 892 00:48:33,176 --> 00:48:35,178 we think it's possible 893 00:48:35,211 --> 00:48:38,949 that there are extra neutrinos out there. 894 00:48:38,982 --> 00:48:41,484 NARRATOR: In addition to the three flavors of neutrino 895 00:48:41,517 --> 00:48:45,588 that the Standard Model describes, 896 00:48:45,621 --> 00:48:49,392 there could be a fourth neutrino that affects them, 897 00:48:49,425 --> 00:48:53,263 making them oscillate faster. 898 00:48:53,296 --> 00:48:57,634 Scientists call it a sterile neutrino, 899 00:48:57,667 --> 00:49:01,204 and it's never been directly detected. 900 00:49:03,206 --> 00:49:05,675 PEREZ: So we call it a sterile neutrino, 901 00:49:05,708 --> 00:49:10,080 in essence, just because it interacts even less 902 00:49:10,113 --> 00:49:12,515 with other particles than the regular neutrinos do. 903 00:49:12,548 --> 00:49:14,384 ♪ ♪ 904 00:49:14,417 --> 00:49:19,022 NARRATOR: A sterile neutrino would be the ultimate ghost particle. 905 00:49:19,055 --> 00:49:22,158 It would never collide with atoms in our world. 906 00:49:22,191 --> 00:49:24,928 No detector could ever see it. 907 00:49:24,961 --> 00:49:27,063 But it may reveal itself 908 00:49:27,096 --> 00:49:31,368 through its effects on the neutrinos we can see. 909 00:49:31,401 --> 00:49:36,172 KARAGIORGI: The only way that we can tell they exist 910 00:49:36,205 --> 00:49:40,210 is through their effects on neutrino oscillation. 911 00:49:40,243 --> 00:49:43,913 NARRATOR: If sterile neutrinos exist, 912 00:49:43,946 --> 00:49:47,350 it would break the neat symmetry of the Standard Model 913 00:49:47,383 --> 00:49:51,488 that organizes particles in groups of three. 914 00:49:51,521 --> 00:49:53,690 What if there's a fourth kind of neutrino, 915 00:49:53,723 --> 00:49:54,924 a so-called sterile neutrino? 916 00:49:54,957 --> 00:49:58,461 Well, where would you put that on our map? 917 00:49:58,494 --> 00:50:00,897 There's no room to kind of shoehorn in, 918 00:50:00,930 --> 00:50:03,666 to squeeze in a fourth neutrino. 919 00:50:03,699 --> 00:50:07,971 So I think there really is a lot riding on this. 920 00:50:08,004 --> 00:50:12,876 NARRATOR: If they're real, sterile neutrinos would have mass, 921 00:50:12,909 --> 00:50:15,278 but not interact with our detectors-- 922 00:50:15,311 --> 00:50:18,515 just like dark matter. 923 00:50:18,548 --> 00:50:23,286 They could be the first particle of dark matter ever discovered, 924 00:50:23,319 --> 00:50:26,890 and through their effects on the neutrinos we can see, 925 00:50:26,923 --> 00:50:32,062 they could give scientists a window into another world. 926 00:50:32,095 --> 00:50:34,964 KAISER: The neutrino might be a kind of link, 927 00:50:34,997 --> 00:50:37,167 almost a kind of messenger or portal 928 00:50:37,200 --> 00:50:40,504 to this whole other possible kind of stuff out there. 929 00:50:44,240 --> 00:50:50,280 NARRATOR: At Fermilab, scientists are edging towards the truth. 930 00:50:50,313 --> 00:50:52,816 ZELLER: I think we're getting a lot closer. 931 00:50:52,849 --> 00:50:55,118 Neutrino physicists are incredibly patient. 932 00:50:55,151 --> 00:50:57,887 It takes a long time for us to collect our data, 933 00:50:57,920 --> 00:51:00,824 and we really want to be sure in what we're seeing before 934 00:51:00,857 --> 00:51:04,794 we potentially make a very important discovery. 935 00:51:04,827 --> 00:51:06,696 We're trying to answer 936 00:51:06,729 --> 00:51:08,865 some of the biggest questions in physics. 937 00:51:08,898 --> 00:51:10,867 I think it's really unique that neutrinos 938 00:51:10,900 --> 00:51:13,636 may hold all the answers. 939 00:51:13,669 --> 00:51:15,605 NARRATOR: What began as a hypothetical particle 940 00:51:15,638 --> 00:51:19,042 that no one thought possible to detect 941 00:51:19,075 --> 00:51:21,077 could now be a key that unlocks 942 00:51:21,110 --> 00:51:25,749 what most of our universe is made of and how it works. 943 00:51:28,351 --> 00:51:29,586 KAISER: Every time we look up, 944 00:51:29,619 --> 00:51:32,422 there seem to be these very curious neutrinos. 945 00:51:32,455 --> 00:51:33,823 They are constantly bedeviling 946 00:51:33,856 --> 00:51:36,659 our mental maps of how we carve up nature 947 00:51:36,692 --> 00:51:38,194 and try to dig in and study it. 948 00:51:38,227 --> 00:51:40,563 And that's just amazingly exciting. 949 00:51:40,596 --> 00:51:43,566 So they've gone from, "Maybe they exist, maybe they don't, 950 00:51:43,599 --> 00:51:45,268 we might never know," 951 00:51:45,301 --> 00:51:49,205 to being our surest ticket to the next step. 952 00:51:49,238 --> 00:51:51,207 KARAGIORGI: History has shown that 953 00:51:51,240 --> 00:51:54,110 with every little bit of progress, 954 00:51:54,143 --> 00:51:58,815 we've learned huge, surprising things about our cosmos. 955 00:51:58,848 --> 00:52:00,984 To me, that's really exciting. 956 00:52:01,017 --> 00:52:05,822 And I'm curious to know, where else could we go? 957 00:52:05,855 --> 00:52:08,124 NARRATOR: Wherever we go, 958 00:52:08,157 --> 00:52:12,195 neutrinos could be our guide. 959 00:52:26,009 --> 00:52:33,550 ♪ ♪ 960 00:52:37,387 --> 00:52:44,928 ♪ ♪ 961 00:52:46,563 --> 00:52:54,104 ♪ ♪ 962 00:52:55,738 --> 00:53:03,280 ♪ ♪ 963 00:53:09,018 --> 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