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These are the user uploaded subtitles that are being translated: 1 00:00:01,307 --> 00:00:04,708 ROWE: An invisible danger hurtles towards Earth 2 00:00:04,810 --> 00:00:07,544 at close to the speed of light. 3 00:00:07,613 --> 00:00:12,316 These are intergalactic alien interlopers on our Milky Way. 4 00:00:12,418 --> 00:00:13,851 ROWE: Cosmic rays. 5 00:00:13,953 --> 00:00:16,420 Getting hit by a cosmic ray is like 6 00:00:16,555 --> 00:00:18,956 getting hit by a cosmic bullet. 7 00:00:19,058 --> 00:00:22,426 Cosmic rays are billions of times more energetic than any 8 00:00:22,561 --> 00:00:23,627 other types of particles, 9 00:00:23,762 --> 00:00:25,529 vastly more energetic than anything 10 00:00:25,631 --> 00:00:26,730 we can even create in 11 00:00:26,732 --> 00:00:30,134 a laboratory, in a nuclear fusion reactor, anywhere. 12 00:00:30,236 --> 00:00:33,070 ROWE: They pierce spaceships, putting our astronauts 13 00:00:33,105 --> 00:00:34,204 in danger. 14 00:00:34,306 --> 00:00:36,707 But the source of their power is a mystery. 15 00:00:36,709 --> 00:00:38,642 Are they coming from other galaxies? 16 00:00:38,711 --> 00:00:40,511 Are they coming from things in between the galaxies? 17 00:00:40,513 --> 00:00:41,945 BULLOCK: Where do cosmic rays come from? 18 00:00:42,047 --> 00:00:43,947 Truth is, the most powerful ones, 19 00:00:44,049 --> 00:00:45,215 we haven't got a clue. 20 00:00:45,317 --> 00:00:47,718 ROWE: The race is on to solve the mystery 21 00:00:47,720 --> 00:00:50,821 of the fastest particles in the universe. 22 00:01:05,538 --> 00:01:08,105 PLAIT: If I were to make a list of the dangers of space, 23 00:01:08,207 --> 00:01:10,107 it would be a long list. 24 00:01:10,109 --> 00:01:13,644 You know, there's hard vacuum, huge swings in temperatures, 25 00:01:13,712 --> 00:01:16,313 micro meteorites, all kinds of things. 26 00:01:16,415 --> 00:01:20,517 But probably at the very top of that list, cosmic rays. 27 00:01:20,619 --> 00:01:23,320 ROWE: These space invaders are not what they seem. 28 00:01:23,422 --> 00:01:26,056 When you hear the name cosmic rays, 29 00:01:26,125 --> 00:01:27,825 you might think it's like a beam, 30 00:01:27,827 --> 00:01:30,327 like a laser beam of light. No, no, no, no, no, no. 31 00:01:30,329 --> 00:01:34,131 It's a tiny little death particle. 32 00:01:34,233 --> 00:01:35,232 ROWE: To fight them, 33 00:01:35,234 --> 00:01:37,234 we must first understand them. 34 00:01:42,208 --> 00:01:44,208 April 2019. 35 00:01:45,945 --> 00:01:49,947 NASA's Parker probe flies closer to the sun than 36 00:01:50,015 --> 00:01:51,315 ever before. 37 00:01:51,317 --> 00:01:53,417 We know the sun produces some of 38 00:01:53,419 --> 00:01:56,620 the cosmic rays that fill the solar system, 39 00:01:56,622 --> 00:01:58,055 but we don't know how. 40 00:01:59,458 --> 00:02:05,129 Our sun looks like a beautiful glowing orb, 41 00:02:05,131 --> 00:02:08,332 bringing energy and light to Earth and allowing life 42 00:02:08,434 --> 00:02:09,666 to thrive. 43 00:02:09,735 --> 00:02:11,635 But if you look at it up close, 44 00:02:11,737 --> 00:02:14,638 you'll see a tumultuous storm of events. 45 00:02:16,108 --> 00:02:18,242 PLAIT: The amount of energy the sun is emitting every 46 00:02:18,310 --> 00:02:24,114 second is the equivalent of 100 billion one megaton bombs. 47 00:02:24,216 --> 00:02:25,449 It's a dangerous neighborhood. 48 00:02:26,619 --> 00:02:29,219 ROWE: Suddenly, the probe is caught head-on 49 00:02:29,221 --> 00:02:30,921 in a powerful blast. 50 00:02:34,994 --> 00:02:37,327 It's perfectly positioned to monitor 51 00:02:37,429 --> 00:02:39,530 the outburst from the inside. 52 00:02:41,233 --> 00:02:44,468 OLUSEYI: The entire outer third of the sun is a boiling 53 00:02:44,570 --> 00:02:48,105 cauldron, and tied up in that plasma are magnetic fields. 54 00:02:48,107 --> 00:02:51,341 They get tied and twisted, and energy is stored in them, 55 00:02:51,410 --> 00:02:54,044 so they rise towards the surface, and there, 56 00:02:54,146 --> 00:02:57,314 they rearrange, they reconnect, they twist, they spin. 57 00:02:57,316 --> 00:03:00,350 ROWE: When the magnetic field lines snap, 58 00:03:00,452 --> 00:03:03,654 energy bursts out. 59 00:03:03,755 --> 00:03:08,058 And sometimes, that energy release is explosive 60 00:03:08,126 --> 00:03:09,960 and that's what results in flares, 61 00:03:10,062 --> 00:03:11,662 which are these huge bursts of light. 62 00:03:13,065 --> 00:03:16,633 ROWE: The probe discovers that after a solar flare, 63 00:03:16,735 --> 00:03:20,938 the sun's surface stores electrically charged particles. 64 00:03:21,040 --> 00:03:25,342 But sometimes, there's a second explosion called 65 00:03:25,411 --> 00:03:29,346 a coronal mass ejection, releasing superheated, 66 00:03:29,415 --> 00:03:32,449 electrically charged gas called plasma. 67 00:03:34,220 --> 00:03:37,754 These giant balls of plasma go flying off the surface of 68 00:03:37,823 --> 00:03:40,591 the sun, and in those balls of plasma 69 00:03:40,593 --> 00:03:43,227 are contained these charged particles. 70 00:03:45,831 --> 00:03:50,634 ROWE: The charged particles move fast, but they hit a roadblock, 71 00:03:50,769 --> 00:03:53,070 a cloud of slower-moving particles 72 00:03:53,138 --> 00:03:56,807 that always surrounds the sun, the solar wind. 73 00:03:58,344 --> 00:04:01,445 Well, the coronal mass ejection is moving into the solar wind 74 00:04:01,546 --> 00:04:03,413 much faster than the wind is moving. 75 00:04:03,415 --> 00:04:07,117 So it sort of runs into it and creates this shockwave 76 00:04:07,119 --> 00:04:09,853 and ends up piling up particles at the edge. 77 00:04:09,988 --> 00:04:12,456 ROWE: The shockwave and particles 78 00:04:12,524 --> 00:04:15,058 slam together -- In the collision, 79 00:04:15,160 --> 00:04:17,961 the particles steal energy and speed, 80 00:04:18,063 --> 00:04:20,631 like a baseball accelerating off a bat. 81 00:04:22,001 --> 00:04:26,270 The particles transform into something far more powerful -- 82 00:04:26,338 --> 00:04:28,839 A solar cosmic ray. 83 00:04:28,941 --> 00:04:31,041 They're light, but they're moving 84 00:04:31,110 --> 00:04:32,643 incredibly fast. 85 00:04:34,513 --> 00:04:37,848 The Earth is on average 93 million miles away from 86 00:04:37,950 --> 00:04:41,852 the sun, and these guys reach us in about an hour. 87 00:04:41,954 --> 00:04:43,553 That's 93 million miles an hour. 88 00:04:43,622 --> 00:04:45,622 That's pretty fast. 89 00:04:45,757 --> 00:04:48,825 ROWE: The cosmic rays speed towards Earth. 90 00:04:48,960 --> 00:04:50,627 We're under attack. 91 00:04:50,696 --> 00:04:55,032 Cosmic rays are, by far, the most energetic 92 00:04:55,034 --> 00:04:58,735 particles that we know to exist in the universe. 93 00:04:58,837 --> 00:05:02,239 And when things with very high energy, no matter how small 94 00:05:02,308 --> 00:05:04,041 they are, impact something else, 95 00:05:04,142 --> 00:05:07,210 they deposit that energy, right, and so cosmic rays 96 00:05:07,212 --> 00:05:08,478 can be very dangerous. 97 00:05:08,480 --> 00:05:12,349 ROWE: Solar cosmic rays aren't the only threat we face. 98 00:05:12,451 --> 00:05:16,753 Other space bullets arrive from beyond our solar system. 99 00:05:16,855 --> 00:05:18,922 There are different kinds of cosmic rays, 100 00:05:18,924 --> 00:05:21,758 just like there are different kinds of bullets. 101 00:05:21,827 --> 00:05:23,493 At the lowest end of the spectrum 102 00:05:23,629 --> 00:05:26,630 are these solar cosmic rays. 103 00:05:26,732 --> 00:05:29,766 These are like the BBs, and when a BB hits you, 104 00:05:29,835 --> 00:05:32,135 it might sting for a little bit, but you're not gonna get 105 00:05:32,137 --> 00:05:33,470 too worried about it. 106 00:05:33,538 --> 00:05:37,607 ROWE: A bigger concern -- Galactic cosmic rays. 107 00:05:37,710 --> 00:05:41,044 They travel faster and have more energy. 108 00:05:41,146 --> 00:05:44,147 If solar rays are like BBs, 109 00:05:44,216 --> 00:05:47,317 the galactic cosmic rays are like rifle bullets. 110 00:05:47,419 --> 00:05:49,753 They're far more dangerous. 111 00:05:49,822 --> 00:05:51,755 They're moving a lot faster. 112 00:05:51,824 --> 00:05:54,424 But they're also more rare. 113 00:05:54,526 --> 00:05:57,027 ROWE: Faster still are the universe's most wanted -- 114 00:05:57,029 --> 00:05:59,529 Ultra-high-energy cosmic rays. 115 00:05:59,598 --> 00:06:02,265 If you thought galactic cosmic rays were bad, it's 116 00:06:02,367 --> 00:06:05,736 because you haven't met an ultra-high-energy cosmic ray. 117 00:06:05,738 --> 00:06:08,839 These are the biggest, baddest, 118 00:06:08,941 --> 00:06:12,843 meanest cosmic rays in the universe. 119 00:06:13,946 --> 00:06:16,413 These ultra-high-energy cosmic rays 120 00:06:16,515 --> 00:06:18,315 are like hypersonic missiles. 121 00:06:18,317 --> 00:06:20,417 They are screaming, and they come from 122 00:06:20,519 --> 00:06:23,520 the most energetic events in the universe. 123 00:06:27,459 --> 00:06:29,626 ROWE: The ultra-high-energy cosmic missiles 124 00:06:29,728 --> 00:06:32,829 are the rarest but also the swiftest. 125 00:06:34,133 --> 00:06:37,968 These cosmic ray particles are moving fast. 126 00:06:38,070 --> 00:06:40,804 These mysterious particles are moving incredibly 127 00:06:40,939 --> 00:06:42,305 close to the speed of light. 128 00:06:42,408 --> 00:06:45,041 I'm not talking about 99 percent the speed of light. 129 00:06:45,077 --> 00:06:46,510 PLAIT: They're moving through space at 130 00:06:46,512 --> 00:06:48,745 like 99.999... 131 00:06:48,814 --> 00:06:51,515 - 9999... - 9999... 132 00:06:51,517 --> 00:06:53,917 - 99999... - 999999... 133 00:06:53,919 --> 00:06:56,052 99999 -- 21 nines. 134 00:06:56,154 --> 00:06:57,320 That's fast. 135 00:06:57,322 --> 00:06:59,456 That's wild. That's scary. 136 00:07:01,160 --> 00:07:03,160 ROWE: All three types of cosmic rays 137 00:07:03,228 --> 00:07:05,328 are racing through the solar system. 138 00:07:06,365 --> 00:07:10,233 If I were to hold up a golf ball in the middle of space, 139 00:07:10,235 --> 00:07:16,206 almost 100 cosmic rays pass through that golf ball every 140 00:07:16,208 --> 00:07:18,041 single second. 141 00:07:18,143 --> 00:07:21,878 ROWE: It's a deadly hail of particle bullets, 142 00:07:21,880 --> 00:07:23,213 and out in space, 143 00:07:23,215 --> 00:07:26,950 our astronauts are caught in the crossfire. 144 00:07:27,052 --> 00:07:29,052 Cosmic rays represent one of 145 00:07:29,121 --> 00:07:32,522 the greatest dangers for human space flight. 146 00:07:32,624 --> 00:07:35,926 ROWE: NASA plans to send astronauts back to the moon, 147 00:07:35,928 --> 00:07:37,427 where radiation levels -OVER RADIO: Lift-off. 148 00:07:37,529 --> 00:07:40,931 From cosmic rays are 200 times greater than 149 00:07:40,933 --> 00:07:43,967 on Earth, and that is just the start. 150 00:07:44,069 --> 00:07:47,604 One of NASA's big goals is to send humans to Mars, 151 00:07:47,606 --> 00:07:49,406 and that is a long way away, 152 00:07:49,541 --> 00:07:52,108 at least a six-month journey, and more often, 153 00:07:52,110 --> 00:07:54,845 about a nine-month journey. That's a big problem. 154 00:07:55,914 --> 00:08:00,650 I am hoping that one day, I can go to Mars as an astronaut, 155 00:08:00,752 --> 00:08:02,853 but I'm definitely afraid of cosmic rays, 156 00:08:02,955 --> 00:08:04,254 and the more that I read about it, 157 00:08:04,356 --> 00:08:06,423 the bigger of a threat it seems. 158 00:08:06,425 --> 00:08:11,061 So I think that NASA and other space organizations 159 00:08:11,129 --> 00:08:13,263 are going to need to work on 160 00:08:13,332 --> 00:08:15,499 how to protect their astronauts in these 161 00:08:15,501 --> 00:08:17,334 really dangerous situations. 162 00:08:19,137 --> 00:08:21,004 ROWE: Only one group of people have been 163 00:08:21,006 --> 00:08:24,107 exposed to these high levels of cosmic rays, 164 00:08:25,310 --> 00:08:27,744 the crew members of the Apollo missions 165 00:08:29,114 --> 00:08:31,648 July 1969. 166 00:08:31,717 --> 00:08:35,452 NEIL ARMSTRONG: That's one small step for man, 167 00:08:35,554 --> 00:08:38,121 one giant leap for mankind. 168 00:08:39,424 --> 00:08:41,958 ROWE: One of the astronauts, Buzz Aldrin, 169 00:08:42,027 --> 00:08:44,427 sees something strange. 170 00:08:44,429 --> 00:08:45,729 PLAIT: During Apollo 11, 171 00:08:45,731 --> 00:08:48,231 Buzz Aldrin reported seeing tiny little 172 00:08:48,300 --> 00:08:50,967 flashes sometimes when he was looking around. 173 00:08:51,069 --> 00:08:52,836 That's pretty weird. 174 00:08:52,838 --> 00:08:55,205 But what's weirder is that he saw them 175 00:08:55,340 --> 00:08:57,207 when his eyes were closed. 176 00:08:57,342 --> 00:09:01,511 ROWE: Later missions also report seeing odd flashes of light. 177 00:09:02,848 --> 00:09:05,315 ASTRONAUT: A streak in the lower left side of the... 178 00:09:05,417 --> 00:09:06,917 left eye, moving down. 179 00:09:06,919 --> 00:09:11,721 ROWE: The astronauts describe the flashes as spots, 180 00:09:11,723 --> 00:09:13,823 streaks, and clouds. 181 00:09:13,825 --> 00:09:17,427 Apollo 15 Commander David Scott reported seeing one that 182 00:09:17,529 --> 00:09:20,730 was blue with a white cast, like a blue diamond. 183 00:09:20,732 --> 00:09:25,635 What's happening is that a cosmic ray is entering 184 00:09:25,770 --> 00:09:26,803 the eyeball 185 00:09:26,805 --> 00:09:30,507 and then striking molecules and giving off 186 00:09:30,609 --> 00:09:32,642 a flash of light. 187 00:09:32,711 --> 00:09:36,346 An alternative theory is that it triggers the layer of 188 00:09:36,448 --> 00:09:38,949 sensitive cells in your retina, 189 00:09:39,051 --> 00:09:42,419 so you perceive a streak of light even though 190 00:09:42,421 --> 00:09:44,220 no light ever actually existed. 191 00:09:45,524 --> 00:09:48,224 ROWE: The cosmic rays cause long-term damage. 192 00:09:48,327 --> 00:09:50,160 Inside of the eye's lens, 193 00:09:50,228 --> 00:09:52,896 there are these fiber cells that are transparent. 194 00:09:52,898 --> 00:09:54,864 Well, when a cosmic ray travels through them, 195 00:09:55,000 --> 00:09:57,567 it can damage those cells and make them cloudy, 196 00:09:57,636 --> 00:09:58,835 causing cataracts. 197 00:09:58,937 --> 00:10:01,438 When NASA examines ROWE: the astronauts' helmets, 198 00:10:01,539 --> 00:10:04,541 they find tiny tracks etched through them, 199 00:10:04,610 --> 00:10:07,410 evidence of cosmic ray impacts. 200 00:10:07,545 --> 00:10:10,647 When we say that cosmic rays are like tiny little bullets, 201 00:10:10,749 --> 00:10:13,016 we're not joking around. 202 00:10:13,018 --> 00:10:16,820 And some of these burrowed all the way through the helmet, 203 00:10:16,822 --> 00:10:20,957 which means it ended up in the astronaut's brain, 204 00:10:21,026 --> 00:10:24,327 which just makes me feel weird to think about. 205 00:10:24,429 --> 00:10:27,464 DARTNELL: What might that long-term radiation 206 00:10:27,565 --> 00:10:30,567 do to your brain, to your ability to reason 207 00:10:30,635 --> 00:10:33,670 and problem solve in one of the most dangerous environments 208 00:10:33,705 --> 00:10:35,205 that humanity has ever placed itself? 209 00:10:36,408 --> 00:10:39,309 ROWE: The farther we venture from our home planet, 210 00:10:39,311 --> 00:10:41,111 the more danger we face. 211 00:10:51,023 --> 00:10:54,824 ROWE: Cosmic rays, highly energetic space particles, 212 00:10:54,826 --> 00:10:58,728 may be the most serious threat to human space exploration. 213 00:10:59,765 --> 00:11:02,932 DARTNELL: The Hollywood conception of outer space is 214 00:11:02,934 --> 00:11:05,301 it's full of dangers like aliens 215 00:11:05,303 --> 00:11:08,104 wielding ray guns or black holes 216 00:11:08,206 --> 00:11:09,539 or asteroid showers. 217 00:11:09,608 --> 00:11:11,307 But in reality, the biggest 218 00:11:11,309 --> 00:11:13,943 danger facing astronauts is invisible. 219 00:11:14,012 --> 00:11:15,245 It's the cosmic radiation. 220 00:11:16,314 --> 00:11:19,816 Cosmic rays damaged ROWE: Apollo astronauts' eyes 221 00:11:19,918 --> 00:11:22,752 after just a few days' exposure. 222 00:11:22,821 --> 00:11:26,656 A one-way trip to Mars takes nine months. 223 00:11:26,725 --> 00:11:28,324 Future missions are going to be 224 00:11:28,326 --> 00:11:30,460 spending much longer times in space, 225 00:11:30,562 --> 00:11:31,661 which means we really need to 226 00:11:31,763 --> 00:11:34,731 consider how cosmic rays will impact us. 227 00:11:34,733 --> 00:11:38,835 CHRISTIAN: We don't understand all the long-term effects 228 00:11:38,837 --> 00:11:42,806 from a steady rain of cosmic rays, 229 00:11:42,908 --> 00:11:46,109 but the astronauts are gonna have to deal with it. 230 00:11:46,211 --> 00:11:48,712 ROWE: To find out more, scientists bombarded 231 00:11:48,714 --> 00:11:52,716 human cells with manmade cosmic ray particles. 232 00:11:52,718 --> 00:11:58,455 They discovered cosmic rays physically cut through DNA, 233 00:11:58,556 --> 00:12:00,724 chopping it apart. 234 00:12:00,726 --> 00:12:04,761 Damage to DNA in your cell is 235 00:12:04,863 --> 00:12:09,265 by far the worst kind, because your DNA 236 00:12:09,367 --> 00:12:11,835 is the cell's operating manuals, the blueprints 237 00:12:11,837 --> 00:12:15,805 so the cell knows how it should be functioning normally. 238 00:12:15,807 --> 00:12:17,841 You can trigger that cell to 239 00:12:17,943 --> 00:12:21,311 turn tumorous, to start producing cancer. 240 00:12:23,115 --> 00:12:26,316 In 2019, scientists ROWE: took the experiment 241 00:12:26,318 --> 00:12:29,119 further and simulated a trip to Mars... 242 00:12:30,122 --> 00:12:32,555 for mice -- For six months, 243 00:12:32,624 --> 00:12:34,657 they blasted the rodents with a steady 244 00:12:34,726 --> 00:12:38,762 stream of lab-made cosmic ray particles. 245 00:12:38,863 --> 00:12:42,465 The experiment found profound alterations 246 00:12:42,534 --> 00:12:45,435 to the mice's normal behavior. 247 00:12:45,570 --> 00:12:49,105 They learned new tasks much more slowly. 248 00:12:49,207 --> 00:12:50,607 Their memory was affected, and they 249 00:12:50,609 --> 00:12:53,643 forgot things they had already learned. 250 00:12:53,712 --> 00:12:55,445 ROWE: They were more anxious and prone to 251 00:12:55,547 --> 00:12:58,915 giving up on tasks they'd normally complete. 252 00:12:58,917 --> 00:13:01,317 If you put some of these irradiated mice into 253 00:13:01,452 --> 00:13:05,622 a swimming test, rather than trying to swim to safety, 254 00:13:05,624 --> 00:13:07,223 many of them just simply gave up. 255 00:13:09,060 --> 00:13:10,727 CHRISTIAN: This is important, because we need 256 00:13:10,829 --> 00:13:13,129 our astronauts to be fully functioning. 257 00:13:13,131 --> 00:13:16,633 The reason why you do crewed missions is because 258 00:13:16,735 --> 00:13:20,837 the human brain is much better than any computer. 259 00:13:20,939 --> 00:13:23,139 PLAIT: If even one of them has a problem, 260 00:13:23,208 --> 00:13:26,209 it can even put the mission and their lives in jeopardy. 261 00:13:27,712 --> 00:13:31,114 ROWE: Other studies discover cosmic rays can accelerate 262 00:13:31,216 --> 00:13:35,318 aging, alter genes, and cause cardiovascular disease. 263 00:13:37,055 --> 00:13:38,855 That sounds bad enough, 264 00:13:38,957 --> 00:13:41,958 but there's a more immediate danger. 265 00:13:42,027 --> 00:13:44,794 When cosmic rays penetrate spaceships, 266 00:13:44,796 --> 00:13:47,931 they can fry electronic systems, and that's enough to 267 00:13:47,933 --> 00:13:49,566 jeopardize a mission. 268 00:13:49,634 --> 00:13:54,904 Our operations in space depend on electronics, on computers. 269 00:13:54,906 --> 00:13:59,609 And the worst case scenario is that the wrong cosmic ray comes 270 00:13:59,711 --> 00:14:01,644 at the wrong time and hits 271 00:14:01,746 --> 00:14:06,349 the wrong circuit, and it leads to a cascading series of 272 00:14:06,451 --> 00:14:10,019 failures that can totally jeopardize a mission. 273 00:14:11,056 --> 00:14:13,923 ROWE: We see evidence of this onslaught in mission cameras. 274 00:14:15,260 --> 00:14:17,126 Even when we have a detector in space 275 00:14:17,262 --> 00:14:18,828 like on the Hubble Space Telescope, 276 00:14:18,930 --> 00:14:20,363 if you saw a raw image, 277 00:14:20,465 --> 00:14:23,066 it doesn't look like the beautiful images 278 00:14:23,134 --> 00:14:24,334 that are shown to the public. 279 00:14:24,469 --> 00:14:26,870 They're just crossed with cosmic rays, and those 280 00:14:26,971 --> 00:14:31,207 cosmic rays are destroying that detector slowly over time. 281 00:14:33,111 --> 00:14:36,045 ROWE: So how can we protect astronauts and their equipment? 282 00:14:37,449 --> 00:14:39,716 The obvious answer is to add shielding. 283 00:14:41,720 --> 00:14:45,054 SUTTER: It's one thing to say like, oh, just add more stuff. 284 00:14:45,156 --> 00:14:48,825 But have you seen rocket launches and how hard they are, 285 00:14:48,927 --> 00:14:51,828 how expensive it is to get stuff up into space? 286 00:14:53,231 --> 00:14:55,965 ROWE: NASA does have a plan. 287 00:14:56,067 --> 00:14:58,768 The spacecraft for the Artemis moon landing mission 288 00:14:58,836 --> 00:15:02,038 will be packed for optimum cosmic ray protection. 289 00:15:02,107 --> 00:15:05,041 CHRISTIAN: So one of the ways you can get around 290 00:15:05,143 --> 00:15:08,311 the mass limit is to basically get dual use 291 00:15:08,413 --> 00:15:10,046 out of everything -- Your supplies, 292 00:15:10,115 --> 00:15:13,816 your fuel, your water, and you can use those as shielding. 293 00:15:13,818 --> 00:15:15,818 ROWE: But it's not that simple. 294 00:15:15,820 --> 00:15:19,022 Just as more powerful bullets penetrate armor, 295 00:15:19,024 --> 00:15:22,358 more energetic cosmic rays pierce the shielding 296 00:15:22,427 --> 00:15:24,027 on spaceships. 297 00:15:24,029 --> 00:15:26,129 The solar ones -- Yeah, you can just put up some 298 00:15:26,264 --> 00:15:28,965 material, some shielding, and it'll generally block them. 299 00:15:29,067 --> 00:15:31,868 But the higher energy ones, they can just burrow 300 00:15:32,003 --> 00:15:33,202 on through. 301 00:15:33,238 --> 00:15:37,307 If they hit one of the atoms in the shielding that is 302 00:15:37,409 --> 00:15:38,841 protecting our astronauts, 303 00:15:38,943 --> 00:15:42,045 it can create a shower of particles. 304 00:15:42,146 --> 00:15:44,714 DARTNELL: That radiation particle might have missed 305 00:15:44,816 --> 00:15:46,215 any of the cells in your body. 306 00:15:46,318 --> 00:15:47,650 But you've now turned it into 307 00:15:47,752 --> 00:15:51,554 a blast, shredding through everything in the spacecraft. 308 00:15:51,623 --> 00:15:55,692 And so it turns out your shielding becomes 309 00:15:55,694 --> 00:15:59,228 the weapon that the cosmic rays use against you. 310 00:15:59,330 --> 00:16:04,534 ROWE: But NASA is recruiting an unexpected ally -- the sun. 311 00:16:04,636 --> 00:16:09,305 Can we protect our astronauts by fighting fire with fire? 312 00:16:17,916 --> 00:16:22,418 ROWE: Powerful cosmic rays smash through spaceships. 313 00:16:22,520 --> 00:16:27,523 But how can objects smaller than an atom carry enough 314 00:16:27,658 --> 00:16:30,460 energy to be dangerous to astronauts? 315 00:16:30,561 --> 00:16:33,429 Moving objects carry energy. 316 00:16:33,531 --> 00:16:35,965 We call this kinetic energy, and when 317 00:16:36,034 --> 00:16:39,535 they strike something, they transform that energy. 318 00:16:40,939 --> 00:16:44,207 When I hit my hand, the kinetic energy of 319 00:16:44,342 --> 00:16:49,645 my fist transforms into sound and heat and vibration. 320 00:16:49,714 --> 00:16:51,748 My hand hurts a little from 321 00:16:51,816 --> 00:16:55,618 that impact, from the transformation of energy. 322 00:16:55,720 --> 00:16:58,154 ROWE: It's the same thing with cosmic rays. 323 00:16:58,223 --> 00:17:02,258 When they slam into a human brain cell or a computer chip, 324 00:17:02,360 --> 00:17:04,961 they dump some energy, causing damage. 325 00:17:06,331 --> 00:17:09,732 How much damage depends on their kinetic energy, 326 00:17:09,734 --> 00:17:12,068 and that comes down to two things -- 327 00:17:12,137 --> 00:17:13,970 Mass and speed. 328 00:17:15,006 --> 00:17:18,941 Intuitively, things that are moving at the same speed, 329 00:17:19,043 --> 00:17:21,411 if they're more massive, they carry more energy. 330 00:17:21,413 --> 00:17:23,946 A bigger asteroid slamming into Earth will 331 00:17:24,015 --> 00:17:26,716 do more damage than a smaller asteroid. 332 00:17:26,818 --> 00:17:29,419 ROWE: If you double the mass of an object, 333 00:17:29,521 --> 00:17:32,321 its kinetic energy also doubles. 334 00:17:32,323 --> 00:17:35,058 Although mass is important, 335 00:17:35,159 --> 00:17:36,726 it's not as important as speed. 336 00:17:39,631 --> 00:17:42,732 OLUSEYI: Speed matters even more than mass. 337 00:17:42,734 --> 00:17:46,069 The kinetic energy depends directly on the mass, 338 00:17:46,137 --> 00:17:48,704 but it depends on the square of the speed. 339 00:17:48,706 --> 00:17:51,407 Here's what that means -- You double the mass, 340 00:17:51,409 --> 00:17:54,444 you have double the kinetic energy, you double the speed, 341 00:17:54,545 --> 00:17:56,813 you have four times the kinetic energy. 342 00:17:59,717 --> 00:18:05,655 ROWE: When it comes to speed, cosmic rays are the elite. 343 00:18:05,756 --> 00:18:07,924 An ultra-high-energy cosmic ray 344 00:18:07,926 --> 00:18:12,528 detected in 1991 hit the atmosphere so fast, 345 00:18:12,530 --> 00:18:15,965 scientists called it the "Oh My God Particle." 346 00:18:19,237 --> 00:18:22,505 This particle was higher energy than they thought 347 00:18:22,607 --> 00:18:24,340 they would ever, ever see. 348 00:18:24,442 --> 00:18:27,810 ROWE: Until this fluorescent streak in the Utah sky, 349 00:18:27,912 --> 00:18:31,214 no one believed a particle could reach the Earth traveling 350 00:18:31,216 --> 00:18:33,316 so close to the speed of light, 351 00:18:33,318 --> 00:18:36,619 making cosmic ray particles far more dangerous 352 00:18:36,721 --> 00:18:37,954 than expected. 353 00:18:38,055 --> 00:18:40,223 As you approach the speed of light, 354 00:18:40,325 --> 00:18:42,758 energy, momentum, mass, they start 355 00:18:42,827 --> 00:18:44,727 to act a little bit differently. 356 00:18:44,862 --> 00:18:47,530 PLAIT: Einstein's equations of relativity become important, 357 00:18:47,632 --> 00:18:50,333 because the physics changes, and the energy it has 358 00:18:50,468 --> 00:18:53,469 becomes much, much, much stronger. 359 00:18:53,538 --> 00:18:56,405 OLUSEYI: If a particle is moving at close to the speed of light, 360 00:18:56,407 --> 00:19:00,510 that means that its energy is almost at the maximum allowed 361 00:19:00,612 --> 00:19:02,612 by the laws of physics. 362 00:19:04,716 --> 00:19:06,816 THALLER: It's amazing to think that something as tiny as 363 00:19:06,818 --> 00:19:09,819 a proton could actually be dangerous to a human being. 364 00:19:09,954 --> 00:19:13,222 But amazingly, that proton is moving so fast, 365 00:19:13,324 --> 00:19:15,591 it carries as much energy as a baseball 366 00:19:15,593 --> 00:19:17,260 thrown at 100 miles an hour. 367 00:19:17,328 --> 00:19:21,164 ROWE: A baseball contains over a trillion, trillion protons. 368 00:19:21,265 --> 00:19:25,234 Imagine all that energy carried by just one particle. 369 00:19:25,336 --> 00:19:29,205 So now you get a sense of just how risky these can be. 370 00:19:29,207 --> 00:19:31,607 ROWE: Ultra-high-energy cosmic rays like 371 00:19:31,709 --> 00:19:35,711 the Oh My God Particle are like supersonic missiles. 372 00:19:35,713 --> 00:19:38,614 They are the fastest, but they're so rare, 373 00:19:38,716 --> 00:19:41,817 astronauts are unlikely to be hit by one. 374 00:19:41,920 --> 00:19:46,022 Solar cosmic rays are like BB pellets -- abundant, 375 00:19:46,024 --> 00:19:48,724 but our spacecraft can block them. 376 00:19:48,793 --> 00:19:50,459 The biggest threat to our astronauts, 377 00:19:50,528 --> 00:19:53,129 however, are galactic cosmic rays. 378 00:19:53,231 --> 00:19:56,132 They come from elsewhere in the Milky Way. 379 00:19:56,134 --> 00:19:57,867 The combination of their speed 380 00:19:58,002 --> 00:20:01,604 and frequency makes them the most dangerous. 381 00:20:01,606 --> 00:20:05,708 These galactic cosmic rays are much more powerful than 382 00:20:05,710 --> 00:20:07,410 the solar cosmic rays, 383 00:20:07,512 --> 00:20:10,813 and they've traveled enormous distances 384 00:20:10,815 --> 00:20:13,549 to mess you up. 385 00:20:13,618 --> 00:20:18,020 ROWE: Luckily, our astronauts have a surprising protector, 386 00:20:18,022 --> 00:20:21,624 a guardian of the solar system, the sun. 387 00:20:23,161 --> 00:20:24,627 DARTNELL: As well as spitting out these 388 00:20:24,729 --> 00:20:29,131 high-energy solar cosmic ray particles, 389 00:20:29,133 --> 00:20:33,436 the sun is also streaming out lots of much lower energy 390 00:20:33,504 --> 00:20:36,038 particles of the solar wind. 391 00:20:36,140 --> 00:20:38,207 That outward moving solar wind acts 392 00:20:38,209 --> 00:20:41,777 as a force field, and the cosmic rays have to work 393 00:20:41,779 --> 00:20:47,016 their way upstream to get to Earth far inside this bubble. 394 00:20:47,018 --> 00:20:51,721 ROWE: The solar wind extends 11 billion miles 395 00:20:51,823 --> 00:20:53,122 around the solar system, 396 00:20:53,257 --> 00:20:57,126 generating a magnetic field that repels incoming 397 00:20:57,128 --> 00:20:59,428 galactic cosmic rays. 398 00:20:59,530 --> 00:21:01,897 DARTNELL: It's almost like the deflector shield 399 00:21:01,899 --> 00:21:04,133 of the Starship Enterprise. 400 00:21:04,135 --> 00:21:08,938 So the sun's magnetic field partially helps protect 401 00:21:09,007 --> 00:21:11,340 the Earth and any astronauts 402 00:21:11,409 --> 00:21:12,808 from the incoming radiation. 403 00:21:12,910 --> 00:21:16,712 OLUSEYI: Not long ago, our Voyager spacecraft 404 00:21:16,814 --> 00:21:19,949 made it to that boundary between the sun's bubble 405 00:21:20,051 --> 00:21:21,450 and the galaxy and was able 406 00:21:21,552 --> 00:21:24,654 to study that region, and we see the difference between 407 00:21:24,755 --> 00:21:27,523 inside the sun's bubble and what's going on 408 00:21:27,525 --> 00:21:29,125 outside the sun's bubble. 409 00:21:29,127 --> 00:21:31,527 The sun has our back, billions 410 00:21:31,629 --> 00:21:34,664 of miles away, and that's pretty cool. 411 00:21:34,765 --> 00:21:37,833 ROWE: The Voyager space probes discovered 412 00:21:37,835 --> 00:21:40,670 a moving battlefield. 413 00:21:40,738 --> 00:21:44,607 The solar wind behaves a bit like a storm front on Earth. 414 00:21:44,609 --> 00:21:46,509 Sometimes, it advances. 415 00:21:46,511 --> 00:21:48,744 Sometimes, it retreats. 416 00:21:49,814 --> 00:21:51,814 OLUSEYI: When the sun's activity is the highest, 417 00:21:51,916 --> 00:21:54,817 it's spitting out more solar energetic protons, 418 00:21:54,919 --> 00:21:58,754 but those solar cosmic rays are much less damaging 419 00:21:58,823 --> 00:22:00,022 than the galactic ones, 420 00:22:00,024 --> 00:22:02,525 so the net is a benefit. 421 00:22:03,695 --> 00:22:06,529 DARTNELL: So actually, ironically, you might find that, 422 00:22:06,531 --> 00:22:10,132 for astronauts, it is safer to launch missions to Mars 423 00:22:10,134 --> 00:22:14,070 during a period of higher solar activity, because although 424 00:22:14,138 --> 00:22:18,607 you have more of the solar particle radiation, 425 00:22:18,609 --> 00:22:22,111 you also get a better shielding effect 426 00:22:22,113 --> 00:22:23,813 from the solar wind. 427 00:22:23,815 --> 00:22:25,848 ROWE: The sun's activity goes through 428 00:22:25,950 --> 00:22:28,417 an 11-year cycle of highs and lows. 429 00:22:28,419 --> 00:22:32,121 The protective bubble follows the same cycle, 430 00:22:32,123 --> 00:22:36,625 allowing NASA to predict the safest times to launch. 431 00:22:36,627 --> 00:22:38,527 This is a thorny problem, and, you know, 432 00:22:38,629 --> 00:22:41,764 we have very smart people working on it, but we want to 433 00:22:41,866 --> 00:22:44,233 explore space as much as we can, 434 00:22:44,235 --> 00:22:45,835 but we have to lower the risk 435 00:22:45,937 --> 00:22:47,837 to the astronauts as much as possible. 436 00:22:49,941 --> 00:22:53,442 ROWE: NASA's fight against the cosmic invaders continues, 437 00:22:53,511 --> 00:22:56,245 but the biggest mystery remains. 438 00:22:56,314 --> 00:22:59,749 What exactly is launching the deadliest 439 00:22:59,817 --> 00:23:02,051 galactic cosmic rays? 440 00:23:10,328 --> 00:23:12,928 ROWE: Every second, quadrillions of bits 441 00:23:12,930 --> 00:23:15,364 of space shrapnel race towards Earth 442 00:23:15,433 --> 00:23:17,366 at close to the speed of light -- 443 00:23:17,435 --> 00:23:20,035 Galactic cosmic rays. 444 00:23:21,105 --> 00:23:24,407 The galactic cosmic rays are like a rifle bullet. 445 00:23:24,409 --> 00:23:27,410 You do not want to get hit by one of these. 446 00:23:27,545 --> 00:23:31,313 ROWE: They are invaders from outside the solar system. 447 00:23:31,416 --> 00:23:34,049 We know they're made by something powerful 448 00:23:34,118 --> 00:23:35,418 within our galaxy, 449 00:23:35,420 --> 00:23:39,054 so the source should be easy to detect. 450 00:23:39,156 --> 00:23:41,557 HOPKINS: You'd think if one of them 451 00:23:41,659 --> 00:23:44,326 hits a detector on Earth, that we'd just be able 452 00:23:44,429 --> 00:23:46,061 to point back in a straight line and say, 453 00:23:46,130 --> 00:23:47,296 "It came from over there." 454 00:23:47,331 --> 00:23:49,131 And then look, is there something else over there, 455 00:23:49,133 --> 00:23:51,033 like a supernova explosion that 456 00:23:51,035 --> 00:23:52,968 could explain the source of this? 457 00:23:53,037 --> 00:23:55,604 The problem is that cosmic rays get 458 00:23:55,606 --> 00:24:00,009 bent as they move by magnetic fields. 459 00:24:00,011 --> 00:24:01,944 ROWE: The electric charge on a cosmic ray 460 00:24:02,046 --> 00:24:04,113 makes it act like a little magnet, 461 00:24:05,183 --> 00:24:08,050 and the Milky Way is full of other magnets. 462 00:24:08,119 --> 00:24:12,254 SUTTER: If I'm a cosmic ray just barreling through the galaxy, 463 00:24:12,356 --> 00:24:14,757 and I encounter a magnetic field, 464 00:24:14,826 --> 00:24:17,126 I'm gonna slightly change directions. 465 00:24:17,228 --> 00:24:20,229 Maybe here, maybe there, maybe up there. 466 00:24:20,231 --> 00:24:23,265 My trajectory is going to become scrambled. 467 00:24:23,334 --> 00:24:25,968 HOPKINS: And after a few million years or so, 468 00:24:26,070 --> 00:24:28,737 basically all the information about where it started has 469 00:24:28,806 --> 00:24:30,339 been lost -- It's going in a completely 470 00:24:30,408 --> 00:24:34,310 random direction for all practical purposes. 471 00:24:34,412 --> 00:24:38,314 ROWE: But galactic cosmic rays also have a sidekick, 472 00:24:38,416 --> 00:24:44,053 one that is far less elusive -- Gamma rays. 473 00:24:44,154 --> 00:24:47,356 When a galactic cosmic ray hits a regular atom out 474 00:24:47,458 --> 00:24:50,326 in space, it causes this big reaction. 475 00:24:51,629 --> 00:24:53,896 HOPKINS: It emits all sorts of other particles, 476 00:24:53,898 --> 00:24:55,231 including gamma rays, 477 00:24:55,366 --> 00:24:58,734 which are basically extremely energetic photons of light. 478 00:24:58,836 --> 00:25:02,705 Critically, gamma rays don't get bent by magnetic fields, 479 00:25:02,840 --> 00:25:04,507 because they don't have an electric charge, 480 00:25:04,609 --> 00:25:07,543 so they just beeline off in a straight line along whatever 481 00:25:07,645 --> 00:25:10,846 direction the cosmic ray was moving in the first place. 482 00:25:10,948 --> 00:25:14,950 So we can look back at where gamma rays are coming from in 483 00:25:15,019 --> 00:25:18,420 the sky, and that tells us where there are a lot of 484 00:25:18,422 --> 00:25:19,755 cosmic rays having collisions. 485 00:25:21,058 --> 00:25:24,860 ROWE: And they've led us to a prime suspect... 486 00:25:26,130 --> 00:25:27,129 supernovas. 487 00:25:30,701 --> 00:25:31,967 Supernova are some of 488 00:25:32,069 --> 00:25:34,403 the most powerful explosions in the universe, 489 00:25:34,405 --> 00:25:37,439 and so they're ripe grounds for these highly energetic, 490 00:25:37,541 --> 00:25:41,710 extremely fast particles to be created. 491 00:25:41,812 --> 00:25:44,046 ROWE: When a giant star runs out of fuel, 492 00:25:44,115 --> 00:25:46,982 it can no longer support its own weight. 493 00:25:46,984 --> 00:25:48,617 It collapses inward, 494 00:25:50,555 --> 00:25:54,056 triggering a huge explosion, powerful enough 495 00:25:54,125 --> 00:25:57,726 to smash atoms into tiny pieces. 496 00:25:57,728 --> 00:26:01,030 The explosion pushes out an expanding cloud 497 00:26:01,032 --> 00:26:04,833 of gas and dust, the supernova remnant. 498 00:26:04,835 --> 00:26:06,969 HOPKINS: And that material, as it's moving out at 499 00:26:07,071 --> 00:26:08,170 1,000 miles a second, 500 00:26:08,238 --> 00:26:11,540 generates an incredibly powerful shockwave. 501 00:26:11,609 --> 00:26:14,043 And that shockwave could be where 502 00:26:14,111 --> 00:26:19,448 a particle swept up in the shock gets accelerated. 503 00:26:19,550 --> 00:26:22,017 ROWE: The magnetic fields inside the cloud 504 00:26:22,019 --> 00:26:24,620 trap the subatomic particles. 505 00:26:24,689 --> 00:26:27,556 Cosmic rays inside of the supernova remnant 506 00:26:27,625 --> 00:26:29,458 are a lot like being in a pinball machine. 507 00:26:31,529 --> 00:26:35,531 So you have the shockwave as the flipper, and then your 508 00:26:35,533 --> 00:26:37,833 magnetic fields are these bumpers, 509 00:26:37,835 --> 00:26:40,069 prohibiting it from actually leaving. 510 00:26:41,439 --> 00:26:42,905 They're bouncing back and forth across 511 00:26:42,907 --> 00:26:45,908 this incredibly energetic shock, and each time 512 00:26:45,910 --> 00:26:47,042 they bounce back and forth, 513 00:26:47,111 --> 00:26:49,612 the key is they pick up a little more energy. 514 00:26:50,648 --> 00:26:53,949 ROWE: When a galactic cosmic ray gains enough energy, 515 00:26:54,018 --> 00:26:57,286 the magnetic fields can no longer hold on to it. 516 00:26:57,288 --> 00:26:58,520 It escapes. 517 00:27:01,158 --> 00:27:03,826 The supernova theory explains the birth 518 00:27:03,828 --> 00:27:06,462 of many of these cosmic bullets. 519 00:27:06,563 --> 00:27:09,398 But then we discovered a super gamma ray 520 00:27:09,400 --> 00:27:13,135 so powerful, it must have a completely different 521 00:27:13,237 --> 00:27:14,570 origin story. 522 00:27:14,638 --> 00:27:17,506 So this gamma ray was incredibly high energy, 523 00:27:17,641 --> 00:27:20,809 which means that the cosmic ray responsible for it was 524 00:27:20,811 --> 00:27:23,545 probably also extremely high in energy. 525 00:27:23,647 --> 00:27:25,748 If you fire a bullet into a pinball machine, 526 00:27:25,783 --> 00:27:27,449 it's not gonna bounce back and forth. 527 00:27:27,518 --> 00:27:29,118 [gunshot sound effect] 528 00:27:29,253 --> 00:27:30,953 I'm just gonna break through the machinery. 529 00:27:31,055 --> 00:27:32,421 The problem is that these 530 00:27:32,423 --> 00:27:35,224 are vastly more energetic than that. 531 00:27:35,326 --> 00:27:38,127 So there's no way they could have been bouncing around all 532 00:27:38,129 --> 00:27:41,563 the way up to their current energies inside of that 533 00:27:41,632 --> 00:27:45,034 particular pinball machine. 534 00:27:45,036 --> 00:27:48,070 ROWE: There must be something else in the Milky Way 535 00:27:48,138 --> 00:27:50,439 creating galactic cosmic rays, 536 00:27:50,508 --> 00:27:54,710 something more powerful than a supernova. 537 00:27:56,313 --> 00:27:59,515 The question is, what? 538 00:27:59,617 --> 00:28:03,052 January 2021. 539 00:28:03,153 --> 00:28:04,820 At an observatory 540 00:28:04,822 --> 00:28:07,823 high up on the side of a Mexican volcano, 541 00:28:07,825 --> 00:28:11,326 blue light zaps through water tanks, 542 00:28:12,430 --> 00:28:15,030 signs of incoming gamma rays. 543 00:28:16,834 --> 00:28:19,835 Their trail stretches back across the Milky Way, 544 00:28:19,837 --> 00:28:24,106 crossing billions of miles, but suddenly goes cold. 545 00:28:25,342 --> 00:28:28,444 Instead of originating in a huge explosion, 546 00:28:28,512 --> 00:28:33,449 the trail ends in a cold, sparse cloud of dust. 547 00:28:33,550 --> 00:28:36,719 SUTTER: Molecular clouds, at first glance, seem like 548 00:28:36,821 --> 00:28:38,320 one of the most boring, 549 00:28:38,322 --> 00:28:41,123 innocuous places in the universe. 550 00:28:41,225 --> 00:28:45,527 You can barely even see them without an infrared telescope. 551 00:28:45,529 --> 00:28:48,263 They're not events like supernova 552 00:28:48,365 --> 00:28:50,332 that have enormously high energies. 553 00:28:50,434 --> 00:28:52,468 So you wouldn't expect it to create super 554 00:28:52,536 --> 00:28:54,303 energetic particles. 555 00:28:54,305 --> 00:28:57,039 ROWE: Something must be hidden in the cloud, 556 00:28:57,108 --> 00:29:01,410 something powerful enough to accelerate the cosmic rays. 557 00:29:01,412 --> 00:29:03,512 We just don't know what. 558 00:29:03,514 --> 00:29:06,415 We can't see inside the molecular clouds, 559 00:29:06,550 --> 00:29:09,752 so it could be that, deep inside them, 560 00:29:09,853 --> 00:29:13,322 there are clusters of newborn stars that are cranking out 561 00:29:13,424 --> 00:29:14,823 these cosmic rays, 562 00:29:14,825 --> 00:29:18,761 but we don't know if even the crankiest of stars are 563 00:29:18,829 --> 00:29:23,532 capable of producing cosmic rays at these energies. 564 00:29:23,534 --> 00:29:25,667 ROWE: Just two months later, 565 00:29:25,769 --> 00:29:29,238 in March of 2021, we get another clue. 566 00:29:29,339 --> 00:29:31,940 Scientists detect gamma rays coming 567 00:29:32,042 --> 00:29:35,244 from the Cygnus Cocoon Nebula. 568 00:29:35,345 --> 00:29:37,946 It's a dense molecular cloud with 569 00:29:38,048 --> 00:29:41,617 a difference -- At the center is a cavity. 570 00:29:41,719 --> 00:29:46,455 Hundreds of closely packed stars push against the dust 571 00:29:46,557 --> 00:29:48,824 and gas, including 572 00:29:48,893 --> 00:29:52,861 huge bright stars called spectral type O and B 573 00:29:53,931 --> 00:29:56,165 Spectral type O and B stars are 574 00:29:56,233 --> 00:29:58,367 some of the hottest stars in our universe. 575 00:30:00,037 --> 00:30:02,604 ROWE: The massive stars blast out solar winds far 576 00:30:02,739 --> 00:30:05,040 stronger than the wind produced by our sun. 577 00:30:06,710 --> 00:30:09,044 When you think about all these stars forming together, 578 00:30:09,146 --> 00:30:12,347 they are all putting off a wind of high-energy particles 579 00:30:12,449 --> 00:30:13,649 from their surfaces. 580 00:30:13,684 --> 00:30:16,718 These winds collide and form big shock structures 581 00:30:16,821 --> 00:30:18,654 between all of these young stars. 582 00:30:18,755 --> 00:30:20,956 CHRISTIAN: You're getting so much energy from 583 00:30:21,058 --> 00:30:22,758 so many different winds, coming from so many 584 00:30:22,860 --> 00:30:27,362 different directions, that it forms a boiling mass of 585 00:30:27,431 --> 00:30:29,498 shockwaves and magnetic fields. 586 00:30:29,500 --> 00:30:30,966 ROWE: It's a pinball machine 587 00:30:31,035 --> 00:30:34,970 on a far bigger scale -- The magnetic fields are stronger 588 00:30:35,039 --> 00:30:36,305 than a supernova's, 589 00:30:36,307 --> 00:30:40,609 trapping and accelerating the more energetic cosmic rays 590 00:30:40,611 --> 00:30:41,810 for longer. 591 00:30:41,812 --> 00:30:44,246 One important thing about star clusters is that 592 00:30:44,348 --> 00:30:47,015 they are around for millions and millions of years. 593 00:30:47,017 --> 00:30:49,952 It's not just a one-off event like a supernova. 594 00:30:49,987 --> 00:30:52,921 CHRISTIAN: And so you've got this magnetic field 595 00:30:52,923 --> 00:30:56,124 and these shocks happening over a long period of time, 596 00:30:56,260 --> 00:30:58,527 and that may be what you need to accelerate cosmic rays. 597 00:30:59,930 --> 00:31:04,433 ROWE: Molecular clouds may shoot out galactic cosmic rays, 598 00:31:04,535 --> 00:31:07,669 but what fires the hypersonic space missiles, 599 00:31:07,738 --> 00:31:10,806 the ultra-high-energy cosmic rays? 600 00:31:10,941 --> 00:31:14,810 The culprit may be hiding out in distant galaxies -- 601 00:31:14,945 --> 00:31:18,113 Supermassive black holes. 602 00:31:25,222 --> 00:31:27,522 ROWE: Ultra-high-energy cosmic rays are 603 00:31:27,625 --> 00:31:31,226 the hypersonic missiles of the particle world. 604 00:31:31,295 --> 00:31:33,328 If a photon of light, the fastest thing in 605 00:31:33,330 --> 00:31:37,232 the universe, had a race with an ultra-high-energy cosmic ray, 606 00:31:37,334 --> 00:31:41,670 it would be so close, that after 200,000 years, 607 00:31:41,705 --> 00:31:44,506 that photon would be half an inch ahead of 608 00:31:44,641 --> 00:31:46,408 the ultra-high-energy cosmic ray. 609 00:31:46,410 --> 00:31:50,946 ROWE: They appear to come from beyond our Milky Way galaxy. 610 00:31:51,048 --> 00:31:55,817 OLUSEYI: Our galaxy is 100,000 light years across. 611 00:31:55,920 --> 00:31:59,621 The next nearest galaxy to us is two million light years away. 612 00:31:59,723 --> 00:32:01,757 So these are traveling to us 613 00:32:01,858 --> 00:32:04,826 across millions and billions of light years. 614 00:32:04,929 --> 00:32:09,331 How do you accelerate this tiny 615 00:32:09,466 --> 00:32:13,969 little particle to such insane velocities? 616 00:32:14,071 --> 00:32:15,904 What is the power source? 617 00:32:15,906 --> 00:32:19,541 What in the universe has that kind of capability? 618 00:32:19,610 --> 00:32:22,411 Where's the Death Star here? 619 00:32:22,546 --> 00:32:25,147 ROWE: Their speed makes them dangerous, 620 00:32:25,215 --> 00:32:29,051 but it also makes it easier to find their source. 621 00:32:29,119 --> 00:32:32,421 Ultra-high-energy cosmic rays are moving so rapidly, 622 00:32:32,556 --> 00:32:34,523 that they're really not affected that much by 623 00:32:34,625 --> 00:32:35,757 magnetic fields. 624 00:32:35,826 --> 00:32:38,026 It's like a bullet going through a fisherman's net. 625 00:32:38,028 --> 00:32:41,830 CHRISTIAN: And so they're coming mostly in a straight line. 626 00:32:41,832 --> 00:32:44,166 When they're coming in a straight line, and we can point 627 00:32:44,234 --> 00:32:45,734 back to their origin, 628 00:32:45,736 --> 00:32:49,504 and that's something we can use to figure out where 629 00:32:49,506 --> 00:32:50,939 and how they're getting accelerated. 630 00:32:52,910 --> 00:32:54,609 ROWE: In the Argentinian desert, 631 00:32:54,712 --> 00:32:58,246 the Pierre Auger Cosmic Ray Detector completes 632 00:32:58,315 --> 00:33:00,415 a 12-year study of the sky. 633 00:33:02,653 --> 00:33:05,554 It confirms that most galaxies have a supermassive 634 00:33:05,655 --> 00:33:07,356 black hole at their center, 635 00:33:07,424 --> 00:33:11,159 but only a few are active, shooting out energy. 636 00:33:11,261 --> 00:33:15,063 These active supermassive black holes also 637 00:33:15,132 --> 00:33:18,433 blast out ultra-high-energy cosmic rays. 638 00:33:19,436 --> 00:33:23,305 Supermassive black holes are already extremely powerful. 639 00:33:23,307 --> 00:33:25,040 So it makes a lot of sense to me that 640 00:33:25,142 --> 00:33:28,243 the ultra-high-energy cosmic rays could originate at 641 00:33:28,345 --> 00:33:30,445 supermassive black holes. 642 00:33:30,514 --> 00:33:35,717 ROWE: The M87 galaxy is 54 million light years away. 643 00:33:35,719 --> 00:33:38,320 It's famous because we took a photo 644 00:33:38,322 --> 00:33:41,723 of the supermassive black hole at its core. 645 00:33:41,725 --> 00:33:45,994 So the event horizon telescope image of the swirling vortex of 646 00:33:45,996 --> 00:33:48,463 gas around that central black hole, 647 00:33:48,532 --> 00:33:50,565 that shadow that you can't actually see, 648 00:33:50,634 --> 00:33:55,437 that could be a site for the unbelievably energetic 649 00:33:55,539 --> 00:33:56,938 acceleration of cosmic rays. 650 00:33:57,040 --> 00:34:00,308 ROWE: In March 2021, 651 00:34:00,310 --> 00:34:03,311 scientists analyze the data further. 652 00:34:03,447 --> 00:34:07,315 MINGARELLI: This new image of M87 shows very clear 653 00:34:07,451 --> 00:34:08,950 magnetic field lines, 654 00:34:09,053 --> 00:34:11,820 which is really stunning and reminds us of how much energy 655 00:34:11,922 --> 00:34:15,057 could be contained close to the supermassive black hole. 656 00:34:15,158 --> 00:34:17,826 ROWE: Black holes have enormous power, 657 00:34:17,928 --> 00:34:20,929 but how do they transfer some of that energy 658 00:34:20,931 --> 00:34:22,164 to a tiny particle? 659 00:34:22,265 --> 00:34:25,333 HOPKINS: One possibility for how supermassive black holes 660 00:34:25,469 --> 00:34:27,636 could accelerate such enormously energetic 661 00:34:27,738 --> 00:34:31,606 cosmic rays is that they actually drag or capture via 662 00:34:31,741 --> 00:34:32,941 their gravity 663 00:34:33,076 --> 00:34:36,411 preexisting normal cosmic rays, which are already 664 00:34:36,546 --> 00:34:37,846 extremely energetic, 665 00:34:37,948 --> 00:34:41,817 and then give them an extra boost to even higher energies. 666 00:34:41,919 --> 00:34:45,053 MINGARELLI: So supermassive black holes bend the fabric 667 00:34:45,122 --> 00:34:46,455 of spacetime around them, 668 00:34:46,556 --> 00:34:50,625 and even light particles can get stuck, and cosmic rays are 669 00:34:50,627 --> 00:34:53,662 no different -- they can also be attracted by the supermassive 670 00:34:53,763 --> 00:34:57,365 black holes and get drawn into their orbit. 671 00:34:57,467 --> 00:35:00,836 ROWE: It makes sense that the black hole captures 672 00:35:00,838 --> 00:35:02,504 passing cosmic rays, 673 00:35:02,606 --> 00:35:05,640 but how do the particles escape its clutches 674 00:35:05,742 --> 00:35:07,109 and hurtle towards us? 675 00:35:08,479 --> 00:35:12,280 M87 has a fearsome weapon in its arsenal. 676 00:35:12,282 --> 00:35:17,319 Enormous jets of energy blast out of its poles. 677 00:35:17,321 --> 00:35:20,856 TREMBLAY: So M87's jets are spectacularly large, 678 00:35:20,991 --> 00:35:23,959 larger than the entire galaxy that houses this black hole 679 00:35:24,061 --> 00:35:25,427 that's launching those jets. 680 00:35:25,529 --> 00:35:28,163 ROWE: The powerful jets may give the cosmic rays 681 00:35:28,198 --> 00:35:29,564 a speed injection, 682 00:35:29,666 --> 00:35:33,168 transforming them from galactic rifle bullets into 683 00:35:33,270 --> 00:35:36,505 ultra-high-energy hypersonic missiles. 684 00:35:36,607 --> 00:35:41,042 So imagine if you had a regular bullet that 685 00:35:41,144 --> 00:35:43,812 you fired out of a gun at high speed, 686 00:35:43,814 --> 00:35:47,949 and as its flying, a little rocket motor in 687 00:35:48,084 --> 00:35:52,320 the bullet kicks in and takes it up to even higher speeds. 688 00:35:52,322 --> 00:35:54,656 That's sort of what's happening to 689 00:35:54,758 --> 00:35:57,125 the cosmic rays in these jets. 690 00:35:58,462 --> 00:36:00,362 ROWE: Black holes may be the supervillains 691 00:36:00,463 --> 00:36:02,030 we've been looking for, 692 00:36:02,032 --> 00:36:04,933 firing out the fastest cosmic bullets, 693 00:36:04,935 --> 00:36:08,904 but cosmic rays have a superpower of their own. 694 00:36:08,906 --> 00:36:10,405 They're time travelers. 695 00:36:18,115 --> 00:36:20,715 ROWE: Cosmic rays race through the universe at close 696 00:36:20,850 --> 00:36:24,819 to the speed of light -- Like subatomic bullets, 697 00:36:24,922 --> 00:36:28,924 they can pierce spaceships and harm astronauts. 698 00:36:31,929 --> 00:36:34,629 But down on Earth, we're protected. 699 00:36:36,567 --> 00:36:41,703 Out of all of the rocky inner planets in the solar system, 700 00:36:41,705 --> 00:36:44,206 the Earth is the only one to generate 701 00:36:44,341 --> 00:36:48,310 its own deflector shield against this cosmic radiation. 702 00:36:48,378 --> 00:36:50,612 That's amazing. And that's where life is. 703 00:36:50,747 --> 00:36:54,216 I don't think that's actually all that much of a coincidence. 704 00:36:54,351 --> 00:36:58,053 ROWE: The Earth creates its own magnetic field. 705 00:36:58,121 --> 00:37:01,223 The Earth has this wonderful active molten core of metal. 706 00:37:01,325 --> 00:37:04,793 All of that metal is moving around inside the Earth, 707 00:37:04,795 --> 00:37:07,562 and that moving metal generates a strong magnetic field. 708 00:37:07,664 --> 00:37:09,931 These cosmic rays are electrically charged. 709 00:37:09,933 --> 00:37:11,566 They follow a magnetic field. 710 00:37:11,668 --> 00:37:13,969 So our magnetic field deflects most 711 00:37:14,070 --> 00:37:15,937 of the cosmic rays around it. 712 00:37:16,039 --> 00:37:18,206 ROWE: The shield is not perfect. 713 00:37:18,208 --> 00:37:21,276 Some cosmic rays do get through, 714 00:37:21,278 --> 00:37:24,312 but then they hit our second line of defense -- 715 00:37:24,314 --> 00:37:25,814 The atmosphere. 716 00:37:25,816 --> 00:37:27,849 One of the things we have to be thankful for is 717 00:37:27,984 --> 00:37:30,518 our atmosphere -- not only does it give us air to breathe, 718 00:37:30,654 --> 00:37:32,520 but it protects us from these space bullets. 719 00:37:32,522 --> 00:37:37,759 ROWE: The atmosphere is like a missile defense system. 720 00:37:37,827 --> 00:37:40,629 Cosmic rays collide with air molecules, 721 00:37:40,631 --> 00:37:44,132 shattering into safer, smaller particles. 722 00:37:44,267 --> 00:37:48,370 The most common ones are called muons. 723 00:37:49,706 --> 00:37:54,209 The muons are the children of the cosmic rays. 724 00:37:54,311 --> 00:37:57,545 They're produced by these high-energy collisions 725 00:37:57,614 --> 00:37:58,913 in our upper atmosphere that 726 00:37:58,915 --> 00:38:02,550 create these showers of muons that then come down to 727 00:38:02,652 --> 00:38:03,784 the surface. 728 00:38:03,786 --> 00:38:06,021 There's as many as four of these cosmic rays passing 729 00:38:06,023 --> 00:38:07,622 through my hand every second. 730 00:38:07,624 --> 00:38:09,724 They're passing through your body right now. 731 00:38:09,793 --> 00:38:11,760 ROWE: Muons are so abundant, 732 00:38:11,861 --> 00:38:14,829 we don't need a high-tech observatory to detect them, 733 00:38:14,964 --> 00:38:18,767 just a few things you'd find in a high school science lab. 734 00:38:18,835 --> 00:38:23,138 A small aquarium that I've attached a small piece of felt 735 00:38:23,239 --> 00:38:24,806 to the bottom. 736 00:38:24,808 --> 00:38:27,809 Some frozen carbon dioxide, some dry ice, 737 00:38:27,911 --> 00:38:33,815 hence the safety gloves, a flat piece of metal like this, 738 00:38:33,817 --> 00:38:35,650 some isopropyl alcohol. 739 00:38:37,421 --> 00:38:40,055 Then I flip the whole thing over 740 00:38:40,156 --> 00:38:43,325 onto the bottom, and I wait. 741 00:38:45,529 --> 00:38:49,531 So what's happening is that the alcohol in the felt is 742 00:38:49,533 --> 00:38:52,934 evaporating in sinking down, and because 743 00:38:52,936 --> 00:38:55,737 that bottom layer is so cold from the dry ice, 744 00:38:55,739 --> 00:39:00,141 it forms a super saturated cloud of alcohol vapor. 745 00:39:01,511 --> 00:39:05,313 ROWE: When the charged particles pass through the cold vapor, 746 00:39:05,315 --> 00:39:09,718 they create tiny ghostly trails. 747 00:39:09,820 --> 00:39:12,620 What we're looking for are the muons, 748 00:39:12,622 --> 00:39:16,224 the subatomic particles generated when a cosmic ray 749 00:39:16,359 --> 00:39:18,727 strikes the upper atmosphere. 750 00:39:18,729 --> 00:39:21,830 ROWE: Each silvery thread in the cloud chamber 751 00:39:21,965 --> 00:39:25,033 is the sign of a cosmic ray. 752 00:39:25,035 --> 00:39:28,903 These muons should never make it down to Earth at all. 753 00:39:28,905 --> 00:39:34,008 They only live for 2.2 microseconds before breaking up, 754 00:39:34,010 --> 00:39:35,710 not enough time to travel 755 00:39:35,812 --> 00:39:38,713 through six miles of Earth's atmosphere. 756 00:39:38,715 --> 00:39:41,850 Naively, we would think there's no way that a muon could make it 757 00:39:41,985 --> 00:39:44,152 from the upper atmosphere to where we are now 758 00:39:44,254 --> 00:39:45,220 without decaying. 759 00:39:45,222 --> 00:39:47,021 It turns out they do, and the only 760 00:39:47,023 --> 00:39:50,925 way they do this is they effectively time travel. 761 00:39:50,927 --> 00:39:54,429 The muons move at 98 percent the speed of light. 762 00:39:55,832 --> 00:39:57,532 They move so fast, 763 00:39:57,534 --> 00:40:01,069 they experience what Einstein called time dilation. 764 00:40:01,137 --> 00:40:04,739 Albert Einstein taught us that we live 765 00:40:04,808 --> 00:40:06,741 in a space time, and so that means 766 00:40:06,810 --> 00:40:10,345 that all measurements of lengths and durations of time 767 00:40:10,414 --> 00:40:11,946 are relative. 768 00:40:12,048 --> 00:40:13,815 ROWE: From a muon's perspective, 769 00:40:13,917 --> 00:40:17,452 we humans move incredibly slowly. 770 00:40:17,521 --> 00:40:20,822 They're moving so fast that, for them, 771 00:40:20,824 --> 00:40:23,725 time is stretched out. 772 00:40:23,827 --> 00:40:27,862 What we found by measuring the energy and the lifetime of 773 00:40:27,964 --> 00:40:33,234 muons is that as muons got closer to the speed of light, 774 00:40:33,336 --> 00:40:37,739 their lifetime increased, because to them, time is 775 00:40:37,808 --> 00:40:41,242 slowing down, exactly the way Einstein predicted. 776 00:40:41,344 --> 00:40:45,413 OLUSEYI: Their lifespan is extended by more than 20 times 777 00:40:45,415 --> 00:40:46,614 from our perspective, 778 00:40:46,716 --> 00:40:49,017 so they make it to the ground. 779 00:40:51,955 --> 00:40:55,957 ROWE: Cosmic rays are the ultimate space travelers. 780 00:40:56,059 --> 00:40:59,727 They're awe-inspiring speed allows us to unlock 781 00:40:59,830 --> 00:41:03,431 hidden processes and test our theories of physics. 782 00:41:04,734 --> 00:41:06,468 They're way more energetic than anything 783 00:41:06,536 --> 00:41:08,470 we can do in a laboratory on Earth. 784 00:41:08,538 --> 00:41:10,405 So that means we can unlock all kinds of 785 00:41:10,507 --> 00:41:13,041 new domains about physics at the highest, 786 00:41:13,142 --> 00:41:15,243 most extreme energies. 787 00:41:15,312 --> 00:41:17,879 ROWE: They're our best link to the farthest reaches of 788 00:41:17,881 --> 00:41:19,647 the cosmos. 789 00:41:19,716 --> 00:41:23,451 To me, it's really exciting that we're actually sampling 790 00:41:23,553 --> 00:41:26,321 pieces of matter from distant 791 00:41:26,423 --> 00:41:30,225 stars, from distant galaxies, and we're getting them here at 792 00:41:30,227 --> 00:41:31,960 Earth and studying them. 793 00:41:33,930 --> 00:41:37,432 There are so many amazingly violent events in the universe, 794 00:41:37,434 --> 00:41:40,335 the birth of black holes, exploding stars. 795 00:41:40,337 --> 00:41:42,370 These cosmic rays that are going through your body 796 00:41:42,438 --> 00:41:45,607 right now are messengers from those events. 797 00:41:45,609 --> 00:41:47,509 In some way, you're still connected to 798 00:41:47,611 --> 00:41:49,944 those events, millions of light years away. 799 00:41:51,848 --> 00:41:54,048 These are messengers from the universe, 800 00:41:54,117 --> 00:41:56,017 telling us about how it works. 64778