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These are the user uploaded subtitles that are being translated: 1 00:00:02,149 --> 00:00:06,080 the earth is not alone in the last few 2 00:00:06,080 --> 00:00:08,240 years scientists have found that our 3 00:00:08,240 --> 00:00:11,480 planet is just one of billions out there 4 00:00:11,480 --> 00:00:12,830 in the Milky Way galaxy 5 00:00:12,830 --> 00:00:14,719 there's a really decent chance that 6 00:00:14,719 --> 00:00:16,910 there are more planets in the galaxy 7 00:00:16,910 --> 00:00:19,540 than there actually are stars 8 00:00:19,540 --> 00:00:21,760 we're now scouring these planets for 9 00:00:21,760 --> 00:00:25,840 evidence of atmospheres liquid water and 10 00:00:25,840 --> 00:00:27,910 life itself 11 00:00:27,910 --> 00:00:31,269 we are going to know where in the night 12 00:00:31,269 --> 00:00:32,020 sky 13 00:00:32,020 --> 00:00:34,300 you can point and find another earth we 14 00:00:34,300 --> 00:00:36,699 have a scientific method to actually 15 00:00:36,699 --> 00:00:38,290 determine whether there is life on 16 00:00:38,290 --> 00:00:42,390 another planet another earth alien life 17 00:00:42,390 --> 00:00:46,000 the truth is out there but are we ready 18 00:00:46,000 --> 00:00:48,540 for it 19 00:00:48,540 --> 00:01:00,000 Created By ***RSK** markone129@gmail.com 20 00:01:01,930 --> 00:01:04,760 the earth gives us the blueprint for 21 00:01:04,760 --> 00:01:09,740 life as we know it the Sun warms our 22 00:01:09,740 --> 00:01:11,659 oceans creating the perfect environment 23 00:01:11,659 --> 00:01:15,470 for all scales of life from the very 24 00:01:15,470 --> 00:01:20,170 smallest to the Giants that eat them 25 00:01:21,360 --> 00:01:27,850 Mountains Plains and forests teen with 26 00:01:27,850 --> 00:01:31,479 plant and animal species and it's all 27 00:01:31,479 --> 00:01:34,300 cocooned in a thick atmosphere that 28 00:01:34,300 --> 00:01:37,720 nurtures and protects for us it's 29 00:01:37,720 --> 00:01:43,960 paradise twenty years ago 30 00:01:43,960 --> 00:01:45,940 a group of scientists decided to find 31 00:01:45,940 --> 00:01:48,400 out if there were other paradises out 32 00:01:48,400 --> 00:01:52,060 there so-called exoplanets orbiting the 33 00:01:52,060 --> 00:01:55,590 stars that light up our night sky just 34 00:01:55,590 --> 00:01:58,119 in the last decade we've had this 35 00:01:58,119 --> 00:02:00,369 explosion and the discovery of these 36 00:02:00,369 --> 00:02:03,250 exoplanets which has revolutionized the 37 00:02:03,250 --> 00:02:06,270 whole field of astronomy 38 00:02:08,199 --> 00:02:10,850 the early days of exoplanet hunting 39 00:02:10,850 --> 00:02:13,910 turned up enormous jupiter-sized planets 40 00:02:13,910 --> 00:02:16,690 by the boatload 41 00:02:18,640 --> 00:02:22,000 these hot gas each iins proved easy to 42 00:02:22,000 --> 00:02:25,500 find but hostile to life as we know it 43 00:02:25,500 --> 00:02:28,180 now though new telescopes and 44 00:02:28,180 --> 00:02:30,280 technologies have allowed astronomers to 45 00:02:30,280 --> 00:02:33,340 target smaller planets earth-sized ones 46 00:02:33,340 --> 00:02:35,530 and the stunning results have 47 00:02:35,530 --> 00:02:38,470 transformed the way we see our place in 48 00:02:38,470 --> 00:02:39,720 the universe 49 00:02:39,720 --> 00:02:43,000 we now know something precious that our 50 00:02:43,000 --> 00:02:46,090 planet Earth is not unique it's not even 51 00:02:46,090 --> 00:02:50,950 rare there are tons hoards flocks if you 52 00:02:50,950 --> 00:02:53,709 will of other earth-like planets out 53 00:02:53,709 --> 00:02:55,590 there fluttering around the other stars 54 00:02:55,590 --> 00:02:58,330 some stars probably have multiple earths 55 00:02:58,330 --> 00:03:00,280 orbiting them that's how common 56 00:03:00,280 --> 00:03:03,600 earth-like planets are 57 00:03:05,030 --> 00:03:09,180 we owe this exoplanet explosion to a 58 00:03:09,180 --> 00:03:13,320 Space Telescope called Kepler the Kepler 59 00:03:13,320 --> 00:03:15,330 space telescope is an observatory in 60 00:03:15,330 --> 00:03:17,850 space that is staring at one spot in the 61 00:03:17,850 --> 00:03:21,720 sky it's looking at roughly 150,000 62 00:03:21,720 --> 00:03:23,250 stars and it's looking for the tell-tale 63 00:03:23,250 --> 00:03:26,280 sign of planets orbiting those stars 64 00:03:26,280 --> 00:03:28,530 then every time the planet passes in 65 00:03:28,530 --> 00:03:30,450 front of the star it'll block a little 66 00:03:30,450 --> 00:03:32,730 bit of that star light and if you plot 67 00:03:32,730 --> 00:03:33,900 the amount of light you get from the 68 00:03:33,900 --> 00:03:35,970 star it drops and then goes back up as 69 00:03:35,970 --> 00:03:41,240 the planet passes in just four years 70 00:03:41,240 --> 00:03:44,070 scientists have detected over a thousand 71 00:03:44,070 --> 00:03:48,020 exoplanets just from their shadows 72 00:03:48,020 --> 00:03:50,780 but Kepler has a problem it can't tell 73 00:03:50,780 --> 00:03:53,750 if the shadow is made by a giant gassy 74 00:03:53,750 --> 00:03:57,200 planet hostile to life or a potentially 75 00:03:57,200 --> 00:04:00,690 habitable earth-like planet 76 00:04:00,690 --> 00:04:02,830 what we're measuring when a when a 77 00:04:02,830 --> 00:04:04,870 planet passes in front of its host star 78 00:04:04,870 --> 00:04:09,780 is what is the area of the planet 79 00:04:09,780 --> 00:04:12,880 relative to the area of the star that 80 00:04:12,880 --> 00:04:15,070 it's passing in front of it's a it's a 81 00:04:15,070 --> 00:04:18,940 ratio basically but Jupiter sized 82 00:04:18,940 --> 00:04:22,710 planets crossing giant stars full Kepler 83 00:04:22,710 --> 00:04:25,630 because they block the same fraction of 84 00:04:25,630 --> 00:04:28,420 light as earth sized planets crossing 85 00:04:28,420 --> 00:04:32,260 smaller stars to prove a planet is earth 86 00:04:32,260 --> 00:04:35,080 sized you first need to measure the size 87 00:04:35,080 --> 00:04:37,270 of its star using the world's biggest 88 00:04:37,270 --> 00:04:40,210 telescopes but that's time-consuming 89 00:04:40,210 --> 00:04:43,500 expensive and it creates a huge 90 00:04:43,500 --> 00:04:48,100 exoplanet backlog but astronomer Kavon 91 00:04:48,100 --> 00:04:49,600 Stassen has come up with an ingenious 92 00:04:49,600 --> 00:04:53,370 shortcut by turning the raw Kepler data 93 00:04:53,370 --> 00:04:57,220 into sound what the Kepler telescope 94 00:04:57,220 --> 00:04:59,350 directly measures and the data that we 95 00:04:59,350 --> 00:05:02,830 use is small changes in brightness that 96 00:05:02,830 --> 00:05:06,240 a star produces due to the flickering 97 00:05:06,240 --> 00:05:09,160 arising from the boiling and roiling 98 00:05:09,160 --> 00:05:11,890 motions of gas at its surface what we 99 00:05:11,890 --> 00:05:14,170 can do then is take that light 100 00:05:14,170 --> 00:05:17,830 flickering data and transform it in a 101 00:05:17,830 --> 00:05:21,040 sound studio for example into audio 102 00:05:21,040 --> 00:05:24,100 frequencies and so then we can represent 103 00:05:24,100 --> 00:05:26,830 with sound what we're actually detecting 104 00:05:26,830 --> 00:05:28,889 with light 105 00:05:28,889 --> 00:05:32,009 the bigger the star the more its surface 106 00:05:32,009 --> 00:05:36,180 boils with activity making big stars 107 00:05:36,180 --> 00:05:39,990 flicker more powerfully converted to 108 00:05:39,990 --> 00:05:43,169 sound this boiling becomes a deafening 109 00:05:43,169 --> 00:05:46,830 hiss well let's listen to some stars 110 00:05:46,830 --> 00:05:48,840 okay can we hear the red giant star 111 00:05:48,840 --> 00:05:52,199 please I'm gonna bring up the volume 112 00:05:52,199 --> 00:05:54,590 here 113 00:05:58,720 --> 00:06:02,000 this is a very large star very low 114 00:06:02,000 --> 00:06:04,520 density and so that large amount of hiss 115 00:06:04,520 --> 00:06:07,580 is the result of vigorous boiling and 116 00:06:07,580 --> 00:06:09,440 churning at the surface of this large 117 00:06:09,440 --> 00:06:13,310 red giant star can we get the dwarf star 118 00:06:13,310 --> 00:06:20,000 please on smaller stars sunspots 119 00:06:20,000 --> 00:06:22,880 dominate the sound profile creating a 120 00:06:22,880 --> 00:06:25,270 low-frequency drone 121 00:06:25,270 --> 00:06:27,370 actually sounds like a series of clicks 122 00:06:27,370 --> 00:06:31,509 come but below the clicks lies the faint 123 00:06:31,509 --> 00:06:34,800 hiss Kavon needs to size the star 124 00:06:34,800 --> 00:06:37,479 underneath it at a very low level is a 125 00:06:37,479 --> 00:06:40,349 little bit of hiss 126 00:06:41,960 --> 00:06:45,740 that little bit of is actually the light 127 00:06:45,740 --> 00:06:49,759 flickering that we're interested in by 128 00:06:49,759 --> 00:06:51,470 accurately measuring the level of this 129 00:06:51,470 --> 00:06:54,110 background hiss Kavon can work out the 130 00:06:54,110 --> 00:06:57,530 size of the star in this case it's 131 00:06:57,530 --> 00:07:01,720 around the same size as our star the Sun 132 00:07:01,720 --> 00:07:04,660 cave-ins work could be the breakthrough 133 00:07:04,660 --> 00:07:07,300 exoplanet hunters have been hoping for 134 00:07:07,300 --> 00:07:10,699 it's cheap the results are practically 135 00:07:10,699 --> 00:07:13,190 instantaneous and once you know the size 136 00:07:13,190 --> 00:07:15,889 of the star figuring out the size of the 137 00:07:15,889 --> 00:07:18,590 planets casting shadows over it is 138 00:07:18,590 --> 00:07:19,550 child's play 139 00:07:19,550 --> 00:07:23,509 it feels like a very privileged time to 140 00:07:23,509 --> 00:07:25,180 be a scientist to be an astronomer 141 00:07:25,180 --> 00:07:28,460 working in this area and contributing to 142 00:07:28,460 --> 00:07:30,979 the hunt for the next earth here we are 143 00:07:30,979 --> 00:07:34,370 actually discovering these worlds by the 144 00:07:34,370 --> 00:07:38,660 hundreds and now on the cusp of being 145 00:07:38,660 --> 00:07:42,820 able to identify the next earth 146 00:07:43,930 --> 00:07:46,789 astronomers suspect there could be tens 147 00:07:46,789 --> 00:07:50,060 of billions of rocky earth-like planets 148 00:07:50,060 --> 00:07:52,909 in the Milky Way places where perhaps 149 00:07:52,909 --> 00:07:56,320 life has gotten a foothold 150 00:07:57,170 --> 00:08:00,740 but life as we know it requires water 151 00:08:00,740 --> 00:08:04,320 how can scientists possibly find this 152 00:08:04,320 --> 00:08:07,860 miracle substance on planets light-years 153 00:08:07,860 --> 00:08:22,970 away water divides our living world 154 00:08:22,970 --> 00:08:26,840 those with it prosper 155 00:08:26,840 --> 00:08:34,549 those about suffer remarkably the water 156 00:08:34,549 --> 00:08:37,370 we drink today contains the same atoms 157 00:08:37,370 --> 00:08:40,760 as the water dinosaurs drank 100 million 158 00:08:40,760 --> 00:08:43,909 years ago it's the same water that 159 00:08:43,909 --> 00:08:46,610 formed clouds of the earlier four 160 00:08:46,610 --> 00:08:49,070 billion years ago and every organism 161 00:08:49,070 --> 00:08:51,920 that has ever existed on earth has used 162 00:08:51,920 --> 00:08:54,680 this single ration of water as the 163 00:08:54,680 --> 00:08:57,230 biochemical powerhouse that keeps it 164 00:08:57,230 --> 00:08:59,500 alive 165 00:09:00,020 --> 00:09:02,839 on earth all life requires liquid water 166 00:09:02,839 --> 00:09:05,330 to grow and reproduce it's the common 167 00:09:05,330 --> 00:09:07,640 ecological requirement for life liquid 168 00:09:07,640 --> 00:09:10,370 water is just so good for getting 169 00:09:10,370 --> 00:09:12,830 evolution going molecules can dissolve 170 00:09:12,830 --> 00:09:14,690 in the water actually interact with each 171 00:09:14,690 --> 00:09:17,330 other for more complex chains it does it 172 00:09:17,330 --> 00:09:19,880 with charge there's positive charges and 173 00:09:19,880 --> 00:09:21,920 negative charges separated between the 174 00:09:21,920 --> 00:09:25,130 hydrogen and the oxygen in h2o those 175 00:09:25,130 --> 00:09:28,430 charges break apart the hydrocarbons the 176 00:09:28,430 --> 00:09:30,860 carbon-based molecules that persist 177 00:09:30,860 --> 00:09:31,970 everywhere in nature 178 00:09:31,970 --> 00:09:34,670 now that's very rare hardly any other 179 00:09:34,670 --> 00:09:37,250 liquids do that so liquid water is a 180 00:09:37,250 --> 00:09:39,260 natural starting place when you look out 181 00:09:39,260 --> 00:09:40,940 into the universe and say what planets 182 00:09:40,940 --> 00:09:43,990 could possibly have life 183 00:09:44,520 --> 00:09:47,230 to understand how much liquid water is 184 00:09:47,230 --> 00:09:49,150 out there astronomers must first 185 00:09:49,150 --> 00:09:52,150 calculate how common water is in all its 186 00:09:52,150 --> 00:09:54,540 forms 187 00:09:54,690 --> 00:09:57,990 amazingly they find it everywhere they 188 00:09:57,990 --> 00:10:02,160 look water is incredibly common in its 189 00:10:02,160 --> 00:10:04,440 gaseous form we see water vapor filling 190 00:10:04,440 --> 00:10:06,810 the space between the stars we see it in 191 00:10:06,810 --> 00:10:08,790 clouds of material that are actually 192 00:10:08,790 --> 00:10:12,589 forming new stars and planets right now 193 00:10:14,629 --> 00:10:17,129 since water is a fundamental building 194 00:10:17,129 --> 00:10:20,220 block of stars and planets exoplanet 195 00:10:20,220 --> 00:10:23,629 worlds must surely have it in abundance 196 00:10:23,629 --> 00:10:27,060 but if you're looking for life you need 197 00:10:27,060 --> 00:10:30,509 to find liquid water and plenty up to 198 00:10:30,509 --> 00:10:30,990 find it 199 00:10:30,990 --> 00:10:33,509 astronomers take their cue from a fairy 200 00:10:33,509 --> 00:10:34,959 tale 201 00:10:34,959 --> 00:10:36,850 everybody knows the famous story of 202 00:10:36,850 --> 00:10:38,619 Goldilocks and the three bears and the 203 00:10:38,619 --> 00:10:40,509 the cup of para girar one was too hot 204 00:10:40,509 --> 00:10:43,300 one was too cold I was just right when 205 00:10:43,300 --> 00:10:44,860 it comes to cooking up life like a 206 00:10:44,860 --> 00:10:47,110 porridge you need to have an environment 207 00:10:47,110 --> 00:10:49,449 that's not too hot not too cold just 208 00:10:49,449 --> 00:10:52,179 right and traditionally we look for that 209 00:10:52,179 --> 00:10:58,360 at a certain distance around a star at 210 00:10:58,360 --> 00:11:00,819 first astronomers based this magical 211 00:11:00,819 --> 00:11:03,429 distance known as the Goldilocks zone on 212 00:11:03,429 --> 00:11:07,569 the Earth's orbit around the Sun but as 213 00:11:07,569 --> 00:11:09,639 they found more and more exoplanets 214 00:11:09,639 --> 00:11:11,529 they've had to re-evaluate the 215 00:11:11,529 --> 00:11:14,439 boundaries for liquid water there isn't 216 00:11:14,439 --> 00:11:16,059 a single distance it depends on the 217 00:11:16,059 --> 00:11:18,639 brightness of your parent star a dim 218 00:11:18,639 --> 00:11:21,819 star you need to be closer a hot star 219 00:11:21,819 --> 00:11:25,230 very bright need to be farther away 220 00:11:25,290 --> 00:11:28,209 scientists have calculated just how many 221 00:11:28,209 --> 00:11:30,399 rocky planets may lie within the 222 00:11:30,399 --> 00:11:33,180 Goldilocks zone of their stars 223 00:11:33,180 --> 00:11:36,620 it comes out to over 30 billion 224 00:11:36,620 --> 00:11:41,310 potentially watering worries even more 225 00:11:41,310 --> 00:11:44,310 remarkably recent discoveries have shown 226 00:11:44,310 --> 00:11:47,100 us it's not just planets that can bask 227 00:11:47,100 --> 00:11:49,460 in the warmth of the Goldilocks zone 228 00:11:49,460 --> 00:11:52,890 there may be moons paint blue with 229 00:11:52,890 --> 00:11:56,580 oceans - most of the planets were 230 00:11:56,580 --> 00:11:59,250 finding our big jupiter-sized planet 231 00:11:59,250 --> 00:12:01,650 however a lot of them were are orbiting 232 00:12:01,650 --> 00:12:03,750 roughly where the earth is orbiting the 233 00:12:03,750 --> 00:12:05,550 Sun so even if the planet that we're 234 00:12:05,550 --> 00:12:08,730 finding can't support life it could have 235 00:12:08,730 --> 00:12:10,860 a moon a moon with an atmosphere that 236 00:12:10,860 --> 00:12:14,660 could support life 237 00:12:15,700 --> 00:12:19,120 and the biggest of these rocky moons may 238 00:12:19,120 --> 00:12:24,280 resemble our home there could be 239 00:12:24,280 --> 00:12:26,680 billions upon billions of XA means out 240 00:12:26,680 --> 00:12:28,750 there and even perhaps countless 241 00:12:28,750 --> 00:12:30,720 paradises teeming with life 242 00:12:30,720 --> 00:12:34,150 David kipping searches for exomoons by 243 00:12:34,150 --> 00:12:36,070 looking for double dips in the 244 00:12:36,070 --> 00:12:40,330 brightness of distant stars we look for 245 00:12:40,330 --> 00:12:42,520 XA means in a very similar way to the 246 00:12:42,520 --> 00:12:45,070 way that we look for planets by looking 247 00:12:45,070 --> 00:12:48,550 for them transit the host star 248 00:12:48,550 --> 00:12:51,310 now if that planet had a moon then we 249 00:12:51,310 --> 00:12:53,560 should expect to have one big dip due to 250 00:12:53,560 --> 00:12:55,360 the planet and then one smaller depth 251 00:12:55,360 --> 00:12:56,860 either to the left or to the right due 252 00:12:56,860 --> 00:12:59,220 to the new 253 00:13:01,400 --> 00:13:04,620 habitable exomoons may play host to one 254 00:13:04,620 --> 00:13:06,630 of the most spectacular sights in the 255 00:13:06,630 --> 00:13:07,820 universe 256 00:13:07,820 --> 00:13:11,100 imagine a warm rocky world just like our 257 00:13:11,100 --> 00:13:15,930 own with oceans mountains but in the sky 258 00:13:15,930 --> 00:13:19,410 a massive ringed planet with a fiery 259 00:13:19,410 --> 00:13:22,170 sister moon shooting hot magma into 260 00:13:22,170 --> 00:13:24,440 space 261 00:13:33,149 --> 00:13:36,269 exoplanets and now the vast potential of 262 00:13:36,269 --> 00:13:40,600 exomoons int a galaxy filled with the 263 00:13:40,600 --> 00:13:43,120 possibilities for life but a rocky 264 00:13:43,120 --> 00:13:46,000 surface and liquid oceans may not be 265 00:13:46,000 --> 00:13:47,009 enough 266 00:13:47,009 --> 00:13:52,800 biology needs the breath of life air 267 00:14:04,019 --> 00:14:07,110 backlit by the Sun a halo appears around 268 00:14:07,110 --> 00:14:11,220 the earth a pale blue ring of light our 269 00:14:11,220 --> 00:14:18,089 atmosphere and we owe it everything the 270 00:14:18,089 --> 00:14:20,189 Earth's atmosphere provides the gases 271 00:14:20,189 --> 00:14:22,499 that fuel the biochemistry of advanced 272 00:14:22,499 --> 00:14:25,410 life but it also protects the oceans 273 00:14:25,410 --> 00:14:28,459 from the full fury of the sun's rays 274 00:14:28,459 --> 00:14:30,839 preventing the water from boiling away 275 00:14:30,839 --> 00:14:35,759 into space without an atmosphere there 276 00:14:35,759 --> 00:14:39,600 would be no wind no rain no fresh water 277 00:14:39,600 --> 00:14:46,559 and probably no life atmospheres are 278 00:14:46,559 --> 00:14:49,230 absolutely essential for life take a 279 00:14:49,230 --> 00:14:51,480 look at the planet Earth and you realize 280 00:14:51,480 --> 00:14:53,850 that just like the skin of the Apple the 281 00:14:53,850 --> 00:14:55,619 skin of the apple preserves the Apple 282 00:14:55,619 --> 00:14:57,769 well the atmosphere of our planet 283 00:14:57,769 --> 00:15:00,509 preserves the oceans and makes possible 284 00:15:00,509 --> 00:15:04,610 the presence of life as we know it 285 00:15:06,390 --> 00:15:08,590 scientists in search of living 286 00:15:08,590 --> 00:15:12,070 exoplanets hope to detect the thin gassy 287 00:15:12,070 --> 00:15:14,140 envelope that should surround these 288 00:15:14,140 --> 00:15:18,250 alien worlds to do it they're turning to 289 00:15:18,250 --> 00:15:23,590 the power of rainbows in the same way 290 00:15:23,590 --> 00:15:25,540 that water splits sunlight into a 291 00:15:25,540 --> 00:15:28,600 rainbow astronomers use instruments to 292 00:15:28,600 --> 00:15:31,000 split starlight into a band of colors 293 00:15:31,000 --> 00:15:34,260 called a spectrum 294 00:15:34,330 --> 00:15:36,440 it's one of the oldest tricks and 295 00:15:36,440 --> 00:15:37,960 science 296 00:15:37,960 --> 00:15:40,780 and one of the most revealing several 297 00:15:40,780 --> 00:15:42,430 hundred years ago scientists first began 298 00:15:42,430 --> 00:15:44,440 to take something like a prism and put 299 00:15:44,440 --> 00:15:46,240 it in front of their telescope so he 300 00:15:46,240 --> 00:15:47,980 started taking the light from stars like 301 00:15:47,980 --> 00:15:49,900 the Sun and actually spreading it out 302 00:15:49,900 --> 00:15:51,880 into a spectrum and what they saw was 303 00:15:51,880 --> 00:15:54,250 kind of surprising so instead of seeing 304 00:15:54,250 --> 00:15:56,650 a rain continuous rainbow of light they 305 00:15:56,650 --> 00:15:58,270 saw that rainbow but they saw these dark 306 00:15:58,270 --> 00:16:01,770 lines superimposed on top 307 00:16:02,520 --> 00:16:04,740 each chemical elements of the star's 308 00:16:04,740 --> 00:16:07,200 atmosphere absorbs different parts of 309 00:16:07,200 --> 00:16:10,350 the spectrum creating signature dark 310 00:16:10,350 --> 00:16:13,830 bands for instance up the top there's a 311 00:16:13,830 --> 00:16:15,330 pair of lines in the yellow part of the 312 00:16:15,330 --> 00:16:18,600 spectrum which are due to sodium like a 313 00:16:18,600 --> 00:16:21,930 DNA profile for stars spectral analysis 314 00:16:21,930 --> 00:16:24,089 has taught us almost everything we know 315 00:16:24,089 --> 00:16:27,570 about stars today but these same lines 316 00:16:27,570 --> 00:16:31,740 may hide a marvelous secret the faint 317 00:16:31,740 --> 00:16:35,670 signal of alien atmospheres and perhaps 318 00:16:35,670 --> 00:16:39,630 also alien life so the challenge is that 319 00:16:39,630 --> 00:16:41,100 these planets are very small and very 320 00:16:41,100 --> 00:16:43,350 faint so we can't actually go and 321 00:16:43,350 --> 00:16:45,330 directly measure the light emitted from 322 00:16:45,330 --> 00:16:46,649 the planet the same way that you go and 323 00:16:46,649 --> 00:16:48,529 measure this lovely spectrum for the Sun 324 00:16:48,529 --> 00:16:50,940 instead we have to rely on more indirect 325 00:16:50,940 --> 00:16:52,950 methods so one indirect way of doing 326 00:16:52,950 --> 00:16:54,690 that is to wait until the planet passes 327 00:16:54,690 --> 00:16:58,380 in front of the star when the light of a 328 00:16:58,380 --> 00:17:00,680 star passes through an EXO atmosphere 329 00:17:00,680 --> 00:17:03,330 the gases that surround the planet 330 00:17:03,330 --> 00:17:05,730 should stamp their own faint lines on 331 00:17:05,730 --> 00:17:08,640 the star's spectrum so as we watch the 332 00:17:08,640 --> 00:17:10,349 light from the stars transmitted through 333 00:17:10,349 --> 00:17:11,760 that atmosphere its 334 00:17:11,760 --> 00:17:14,160 atmosphere is going to act like a little 335 00:17:14,160 --> 00:17:16,109 filter so a part of the star light is 336 00:17:16,109 --> 00:17:17,250 going to pass through that atmosphere 337 00:17:17,250 --> 00:17:19,470 and we're gonna see that in printing 338 00:17:19,470 --> 00:17:21,300 extra lines on it which are due to the 339 00:17:21,300 --> 00:17:23,699 planet's atmosphere so that change in 340 00:17:23,699 --> 00:17:25,199 the spectrum tells us something about 341 00:17:25,199 --> 00:17:26,339 the properties of the planet's 342 00:17:26,339 --> 00:17:28,459 atmosphere 343 00:17:28,820 --> 00:17:31,710 the one chemical astronomers most want 344 00:17:31,710 --> 00:17:35,309 to find is oxygen because only life can 345 00:17:35,309 --> 00:17:37,290 produce enough oxygen to be easily 346 00:17:37,290 --> 00:17:41,330 detected it's a so-called bio signature 347 00:17:41,330 --> 00:17:44,220 the race is now on to find bio 348 00:17:44,220 --> 00:17:47,040 signatures in the atmospheres of rocky 349 00:17:47,040 --> 00:17:50,520 exoplanets and while some groups look 350 00:17:50,520 --> 00:17:53,340 for rainbows indirectly others are 351 00:17:53,340 --> 00:17:58,350 tackling the challenge head-on 29 all 352 00:17:58,350 --> 00:17:59,640 right we're off 353 00:17:59,640 --> 00:18:02,160 then Oppenheimer is part of a team 354 00:18:02,160 --> 00:18:04,710 trying to take direct photographs of 355 00:18:04,710 --> 00:18:08,100 exoplanets using massive ground-based 356 00:18:08,100 --> 00:18:10,460 telescopes 357 00:18:10,460 --> 00:18:13,140 we're within minutes of taking our first 358 00:18:13,140 --> 00:18:18,000 long exposure and I hope it's good the 359 00:18:18,000 --> 00:18:20,490 greatest challenge to imaging exoplanets 360 00:18:20,490 --> 00:18:22,650 is the blinding light of the parent star 361 00:18:22,650 --> 00:18:25,559 which shines tens of millions of times 362 00:18:25,559 --> 00:18:28,820 brighter than the planet itself 363 00:18:28,820 --> 00:18:31,400 the trick is to stop the light of the 364 00:18:31,400 --> 00:18:34,190 star from entering the telescope sensors 365 00:18:34,190 --> 00:18:37,520 by blocking it using a series of masks 366 00:18:37,520 --> 00:18:40,790 and lenses called a coronagraph right 367 00:18:40,790 --> 00:18:42,410 now we're standing right underneath the 368 00:18:42,410 --> 00:18:44,570 telescope's primary mirror and the light 369 00:18:44,570 --> 00:18:46,640 comes through a hole in the middle of 370 00:18:46,640 --> 00:18:49,610 the mirror and goes into this crazy box 371 00:18:49,610 --> 00:18:52,180 here which is full of optics motors 372 00:18:52,180 --> 00:18:54,650 sensors and electronics that all allow 373 00:18:54,650 --> 00:18:56,870 us to precisely control the star light 374 00:18:56,870 --> 00:19:01,220 that's coming through the system using 375 00:19:01,220 --> 00:19:02,810 state-of-the-art software they 376 00:19:02,810 --> 00:19:05,120 manipulate the coronagraph to black out 377 00:19:05,120 --> 00:19:07,550 the unwanted light under good conditions 378 00:19:07,550 --> 00:19:11,150 we can actually carve dark holes into 379 00:19:11,150 --> 00:19:13,610 this image of the star so that we can 380 00:19:13,610 --> 00:19:16,030 see really faint things in those regions 381 00:19:16,030 --> 00:19:18,260 coronagraphs present an intriguing 382 00:19:18,260 --> 00:19:21,440 problem though errors within the optics 383 00:19:21,440 --> 00:19:24,410 produce tiny flares of starlight called 384 00:19:24,410 --> 00:19:27,320 speckles that look just like exoplanets 385 00:19:27,320 --> 00:19:29,420 but man has come up with an ingenious 386 00:19:29,420 --> 00:19:33,320 way to tell speckles from planets so 387 00:19:33,320 --> 00:19:34,940 we've developed a technique where we 388 00:19:34,940 --> 00:19:38,300 exploit an aspect of speckles which is 389 00:19:38,300 --> 00:19:40,790 that they change position in the image 390 00:19:40,790 --> 00:19:43,040 depending on what color you take your 391 00:19:43,040 --> 00:19:48,920 image at so Ben takes the same image of 392 00:19:48,920 --> 00:19:51,200 the star through different color filters 393 00:19:51,200 --> 00:19:54,110 and runs them like a movie the speckles 394 00:19:54,110 --> 00:19:56,810 appear to move across the screen but the 395 00:19:56,810 --> 00:20:00,530 planets stay stuck still allowing Ben to 396 00:20:00,530 --> 00:20:04,130 easily pick them out and so I'd like to 397 00:20:04,130 --> 00:20:06,080 point out that there is a little thing 398 00:20:06,080 --> 00:20:09,380 right here that if you watch for you're 399 00:20:09,380 --> 00:20:11,540 careful you'll notice that it doesn't 400 00:20:11,540 --> 00:20:13,460 move and the speckles are washing over 401 00:20:13,460 --> 00:20:15,730 it 402 00:20:18,340 --> 00:20:21,590 this stationary blob is a candidate 403 00:20:21,590 --> 00:20:25,700 exoplanet and below it and to the left 404 00:20:25,700 --> 00:20:29,090 is a second they both appear to orbit a 405 00:20:29,090 --> 00:20:31,550 star around 200 light-years from the 406 00:20:31,550 --> 00:20:38,000 earth just a decade ago capturing an 407 00:20:38,000 --> 00:20:40,010 image like this through a telescope was 408 00:20:40,010 --> 00:20:45,380 unthinkable but today thanks to the 409 00:20:45,380 --> 00:20:47,990 ingenuity of astronomers like Ben we 410 00:20:47,990 --> 00:20:50,650 have hundreds 411 00:20:51,270 --> 00:20:53,429 and by analyzing the light for these 412 00:20:53,429 --> 00:20:56,070 distant worlds scientists can work out 413 00:20:56,070 --> 00:20:58,910 their chemical composition 414 00:20:59,040 --> 00:21:03,680 and potentially the fingerprints of life 415 00:21:03,680 --> 00:21:06,320 at this point we're studying much larger 416 00:21:06,320 --> 00:21:08,780 planets gaseous things like Jupiter that 417 00:21:08,780 --> 00:21:10,700 most likely don't have any kind of life 418 00:21:10,700 --> 00:21:13,130 like we know it but that's a first step 419 00:21:13,130 --> 00:21:15,530 and we're going to fainter and smaller 420 00:21:15,530 --> 00:21:17,690 and smaller planets as time goes on as 421 00:21:17,690 --> 00:21:21,260 we develop this technology in the 422 00:21:21,260 --> 00:21:23,510 not-too-distant future scientists may be 423 00:21:23,510 --> 00:21:26,210 able to simply scan a star for 424 00:21:26,210 --> 00:21:28,280 earth-like planets and find the 425 00:21:28,280 --> 00:21:32,840 signature of life there we can look 426 00:21:32,840 --> 00:21:34,790 right at the light from a little planet 427 00:21:34,790 --> 00:21:36,890 around its distant star and that opens 428 00:21:36,890 --> 00:21:39,050 up a whole range of possibilities for us 429 00:21:39,050 --> 00:21:41,210 to not just detect the planet but to 430 00:21:41,210 --> 00:21:42,710 starting the planet I mean this all 431 00:21:42,710 --> 00:21:44,720 sounds like science fiction but there is 432 00:21:44,720 --> 00:21:46,730 a reality to this we have a scientific 433 00:21:46,730 --> 00:21:49,100 method to actually determine whether 434 00:21:49,100 --> 00:21:55,040 there is life on another planet life is 435 00:21:55,040 --> 00:21:58,550 one thing intelligent life another all 436 00:21:58,550 --> 00:22:01,790 together that requires billions of years 437 00:22:01,790 --> 00:22:04,610 and a powerful force field like the one 438 00:22:04,610 --> 00:22:08,920 we owe our lives to every day 439 00:22:22,410 --> 00:22:24,990 if an alien astronomer were to file a 440 00:22:24,990 --> 00:22:27,630 report on our home solar system they 441 00:22:27,630 --> 00:22:29,150 might make a surprising observation 442 00:22:29,150 --> 00:22:31,320 because of all the eight planets that 443 00:22:31,320 --> 00:22:33,780 orbit the Sun they could easily conclude 444 00:22:33,780 --> 00:22:39,080 the two not one were suitable for life 445 00:22:39,130 --> 00:22:42,230 it's an easy mistake to make because the 446 00:22:42,230 --> 00:22:43,760 Sun has two planets within its 447 00:22:43,760 --> 00:22:44,570 Goldilocks zone 448 00:22:44,570 --> 00:22:48,289 the Earth and Mars 449 00:22:48,289 --> 00:22:51,240 both planets have surfaces warm enough 450 00:22:51,240 --> 00:22:53,940 for liquid water to pool on but while 451 00:22:53,940 --> 00:22:56,399 the earth is blessed with warm liquid 452 00:22:56,399 --> 00:23:01,129 oceans Mars is dry and dead 453 00:23:01,210 --> 00:23:02,920 the one crucial difference between these 454 00:23:02,920 --> 00:23:05,740 two planets could be the key to finding 455 00:23:05,740 --> 00:23:09,820 truly habitable exoplanets a magnetic 456 00:23:09,820 --> 00:23:18,190 shield our Sun is constantly hurling 457 00:23:18,190 --> 00:23:22,660 deadly radiation out towards us only our 458 00:23:22,660 --> 00:23:25,480 magnetic shield the magnetosphere saves 459 00:23:25,480 --> 00:23:29,950 us without it the solar wind would blow 460 00:23:29,950 --> 00:23:32,080 our atmosphere away and without an 461 00:23:32,080 --> 00:23:34,900 atmosphere liquid water could not exist 462 00:23:34,900 --> 00:23:39,070 on the surface in order to have liquid 463 00:23:39,070 --> 00:23:40,420 water not only do you need the right 464 00:23:40,420 --> 00:23:41,590 temperature but you need the right 465 00:23:41,590 --> 00:23:43,510 pressure you know if there were no 466 00:23:43,510 --> 00:23:45,460 atmosphere here right now even at the 467 00:23:45,460 --> 00:23:47,860 same temperature we are today all of the 468 00:23:47,860 --> 00:23:49,180 water would boil off into vapor 469 00:23:49,180 --> 00:23:52,810 immediately so where does the Earth's 470 00:23:52,810 --> 00:23:55,120 magnetosphere come from and why does it 471 00:23:55,120 --> 00:24:00,760 Mars have one actually in the past both 472 00:24:00,760 --> 00:24:03,700 Earth and Mars had magnetospheres but 473 00:24:03,700 --> 00:24:05,860 Mars lost its around 4 billion years ago 474 00:24:05,860 --> 00:24:10,440 and with it the potential for life 475 00:24:14,870 --> 00:24:18,210 both the earth and Mars were born into a 476 00:24:18,210 --> 00:24:22,230 realm of violence asteroids smashed into 477 00:24:22,230 --> 00:24:24,809 their surfaces turning rock and metal 478 00:24:24,809 --> 00:24:28,100 into a molten mass 479 00:24:28,100 --> 00:24:30,590 as they started to cool a solid crust 480 00:24:30,590 --> 00:24:33,500 formed on surface but the molten metal 481 00:24:33,500 --> 00:24:36,250 below churned as the planets turn 482 00:24:36,250 --> 00:24:39,140 inducing a magnetic field which rose 483 00:24:39,140 --> 00:24:41,179 high up above the surface of both 484 00:24:41,179 --> 00:24:44,960 planets at the same time active 485 00:24:44,960 --> 00:24:47,419 volcanoes pumped gas into the space 486 00:24:47,419 --> 00:24:50,150 around each planet protected by the 487 00:24:50,150 --> 00:24:53,000 newly formed magnetic field these gases 488 00:24:53,000 --> 00:24:56,299 built up into thick atmospheres creating 489 00:24:56,299 --> 00:24:59,120 the air pressure for liquid water to run 490 00:24:59,120 --> 00:25:01,159 on the surface for over a hundred 491 00:25:01,159 --> 00:25:04,130 million years both Mars and Earth for 492 00:25:04,130 --> 00:25:07,730 warm wet paradises primed for life to 493 00:25:07,730 --> 00:25:10,610 take off then quite suddenly 494 00:25:10,610 --> 00:25:14,120 Mars's magnetic protection disappeared 495 00:25:14,120 --> 00:25:17,179 the solar wind blew its atmosphere into 496 00:25:17,179 --> 00:25:20,510 space and its oceans boiled away leaving 497 00:25:20,510 --> 00:25:25,780 the dry sterile red rock we see today 498 00:25:25,780 --> 00:25:28,370 Mars is fundamental problem is is that 499 00:25:28,370 --> 00:25:30,500 it's smaller than Earth and because it's 500 00:25:30,500 --> 00:25:33,590 smaller the internal core of Mars cooled 501 00:25:33,590 --> 00:25:37,220 down and solidified and once it becomes 502 00:25:37,220 --> 00:25:39,860 a solid metal there's no more magnetic 503 00:25:39,860 --> 00:25:41,419 field magnetic field shuts off 504 00:25:41,419 --> 00:25:44,659 essentially and the atmosphere therefore 505 00:25:44,659 --> 00:25:46,700 is vulnerable to both energy and 506 00:25:46,700 --> 00:25:49,730 radiation from the Sun and the rest of 507 00:25:49,730 --> 00:25:53,230 the galaxy and probably just blew off 508 00:25:53,230 --> 00:25:55,490 whatever life was on there at least on 509 00:25:55,490 --> 00:25:59,809 the surface is now completely exposed 510 00:25:59,809 --> 00:26:01,969 all rocky planets will one day lose 511 00:26:01,969 --> 00:26:04,429 their magnetospheres as their cores cool 512 00:26:04,429 --> 00:26:08,719 and turn solid so to know if an 513 00:26:08,719 --> 00:26:11,419 exoplanet is alive you need to work out 514 00:26:11,419 --> 00:26:14,889 if its magnetosphere is still active but 515 00:26:14,889 --> 00:26:17,059 magnetospheres are tough to measure 516 00:26:17,059 --> 00:26:21,289 because they are unbelievably weak the 517 00:26:21,289 --> 00:26:23,330 earth has a magnetic field of 518 00:26:23,330 --> 00:26:26,149 approximately half a Gauss which when 519 00:26:26,149 --> 00:26:27,379 you think about it is actually really 520 00:26:27,379 --> 00:26:29,719 weak our fridge magnets are about a 521 00:26:29,719 --> 00:26:33,279 hundred Gauss they're much stronger 522 00:26:33,700 --> 00:26:36,739 Excel planets are too far away for us to 523 00:26:36,739 --> 00:26:38,509 measure such weak magnetic fields 524 00:26:38,509 --> 00:26:44,200 directly but there is an indirect method 525 00:26:44,200 --> 00:26:46,759 when electrons in the solar wind 526 00:26:46,759 --> 00:26:48,979 interacts with a planet's magnetosphere 527 00:26:48,979 --> 00:26:52,190 they emit radio waves that beam out into 528 00:26:52,190 --> 00:26:56,179 space turning the planet into a giant 529 00:26:56,179 --> 00:26:59,529 radio beacon 530 00:26:59,680 --> 00:27:02,600 astronomers like of geniu hoped to use 531 00:27:02,600 --> 00:27:04,460 these signals to spot habitable 532 00:27:04,460 --> 00:27:08,480 exoplanets not only that the frequency 533 00:27:08,480 --> 00:27:10,970 of the signal should also tell her how 534 00:27:10,970 --> 00:27:17,060 big the planet is if we're looking for 535 00:27:17,060 --> 00:27:18,920 the magnetic signature in the radio 536 00:27:18,920 --> 00:27:21,890 waves of a giant planet say a hot 537 00:27:21,890 --> 00:27:24,110 Jupiter we expected to have a strong 538 00:27:24,110 --> 00:27:26,390 magnetic field and therefore would have 539 00:27:26,390 --> 00:27:28,970 a high frequency and around 100 540 00:27:28,970 --> 00:27:31,040 megahertz kind of where the limit of 541 00:27:31,040 --> 00:27:33,830 this radio is however a weaker field 542 00:27:33,830 --> 00:27:36,500 like Earth's requires us to go down to 543 00:27:36,500 --> 00:27:38,390 lower and lower frequencies so instead 544 00:27:38,390 --> 00:27:40,670 of a hundred megahertz we go down to ten 545 00:27:40,670 --> 00:27:47,180 megahertz but hunting for exoplanets at 546 00:27:47,180 --> 00:27:48,980 ten megahertz presents a unique 547 00:27:48,980 --> 00:27:51,310 challenge 548 00:27:52,380 --> 00:27:55,060 because the Earth's own magnetic sphere 549 00:27:55,060 --> 00:27:58,450 creates a deafening radio roar at that 550 00:27:58,450 --> 00:28:03,520 frequency so define alien Earth's using 551 00:28:03,520 --> 00:28:08,260 radio requires a dish in space when we 552 00:28:08,260 --> 00:28:10,780 want to look for magneto spheres of 553 00:28:10,780 --> 00:28:13,420 extrasolar planets we really need to get 554 00:28:13,420 --> 00:28:16,270 outside of the earth-moon system in 555 00:28:16,270 --> 00:28:17,950 order to get away from all the radio 556 00:28:17,950 --> 00:28:19,990 frequencies that are bouncing around the 557 00:28:19,990 --> 00:28:22,260 earth 558 00:28:23,220 --> 00:28:25,920 with a slew of new technologies and 559 00:28:25,920 --> 00:28:28,920 upcoming technologies scientists are 560 00:28:28,920 --> 00:28:31,580 edging ever closer to the ultimate prize 561 00:28:31,580 --> 00:28:34,730 finding a second earth 562 00:28:34,730 --> 00:28:36,920 I wouldn't be surprised if we have that 563 00:28:36,920 --> 00:28:39,710 data about an earth and about life on it 564 00:28:39,710 --> 00:28:41,960 around another star in 10 or 15 years 565 00:28:41,960 --> 00:28:45,820 I'm hoping to see that soon 566 00:28:46,150 --> 00:28:51,310 using shadows rainbows and now radio we 567 00:28:51,310 --> 00:28:53,530 finally have the tools to detect a 568 00:28:53,530 --> 00:28:57,090 planet just like our own 569 00:28:57,360 --> 00:28:59,400 but in the rush to find the Earth's 570 00:28:59,400 --> 00:29:01,890 identical twin are we missing something 571 00:29:01,890 --> 00:29:04,550 big 572 00:29:05,750 --> 00:29:09,440 what if earth is an outlier a freakishly 573 00:29:09,440 --> 00:29:12,380 lucky place on the very fringes of 574 00:29:12,380 --> 00:29:15,800 habitability could there be another kind 575 00:29:15,800 --> 00:29:20,740 of planet out there even better for life 576 00:29:31,980 --> 00:29:34,809 for years astronomers have scanned the 577 00:29:34,809 --> 00:29:36,549 heavens for planets that could sustain 578 00:29:36,549 --> 00:29:40,809 life they faced their search on the 579 00:29:40,809 --> 00:29:43,510 earth seeking the exact same conditions 580 00:29:43,510 --> 00:29:47,559 an exact same size I think right now 581 00:29:47,559 --> 00:29:49,809 there is a huge focus to finding 582 00:29:49,809 --> 00:29:52,659 earth-like planets now whether or not 583 00:29:52,659 --> 00:29:55,929 there actually is life there that is 584 00:29:55,929 --> 00:29:58,929 another question altogether but after 20 585 00:29:58,929 --> 00:30:00,909 years of searching for an earth clone 586 00:30:00,909 --> 00:30:04,210 the exoplanet hunters may be about to 587 00:30:04,210 --> 00:30:09,039 switch targets recent observations have 588 00:30:09,039 --> 00:30:11,380 revealed a brand new class of planet 589 00:30:11,380 --> 00:30:15,670 it's one that may eclipse our own home 590 00:30:15,670 --> 00:30:17,470 we've learned something in the last few 591 00:30:17,470 --> 00:30:20,920 years that really shocked us with the 592 00:30:20,920 --> 00:30:23,290 Kepler space porn telescope we have 593 00:30:23,290 --> 00:30:25,809 found hordes of planets that are a 594 00:30:25,809 --> 00:30:28,179 little bigger than the earth we never 595 00:30:28,179 --> 00:30:29,710 imagined that there would be such 596 00:30:29,710 --> 00:30:31,929 planets in fact in our own solar system 597 00:30:31,929 --> 00:30:34,570 there are no planets between the size of 598 00:30:34,570 --> 00:30:36,640 the earth and the next largest planet 599 00:30:36,640 --> 00:30:40,360 that of Uranus and Neptune astronomers 600 00:30:40,360 --> 00:30:43,059 call these mysterious planets super 601 00:30:43,059 --> 00:30:44,160 Earths 602 00:30:44,160 --> 00:30:46,390 super earths are about three to five 603 00:30:46,390 --> 00:30:48,400 times the mass of the earth and there's 604 00:30:48,400 --> 00:30:50,140 nothing like that here we don't know 605 00:30:50,140 --> 00:30:51,760 what they're like it's an entirely alien 606 00:30:51,760 --> 00:30:55,270 sort of planet in just the last few 607 00:30:55,270 --> 00:30:57,880 years astronomers have begun to imagine 608 00:30:57,880 --> 00:30:59,890 the conditions on this new class of 609 00:30:59,890 --> 00:31:02,049 planet and they've come to a startling 610 00:31:02,049 --> 00:31:06,520 conclusion super earths could be super 611 00:31:06,520 --> 00:31:08,490 habitable 612 00:31:08,490 --> 00:31:10,870 there are probably planets out there 613 00:31:10,870 --> 00:31:13,290 that are even more hospitable for life 614 00:31:13,290 --> 00:31:15,940 planets that have even more chemicals 615 00:31:15,940 --> 00:31:18,250 necessary to create the organic 616 00:31:18,250 --> 00:31:20,860 materials that create life conditions 617 00:31:20,860 --> 00:31:22,840 that make it more likely to get life off 618 00:31:22,840 --> 00:31:25,190 the ground 619 00:31:25,190 --> 00:31:28,249 imagine a rocky planet twice the size of 620 00:31:28,249 --> 00:31:29,960 the earth 621 00:31:29,960 --> 00:31:32,360 dramatic volcanism on the surface 622 00:31:32,360 --> 00:31:35,779 betrays a vast heart of fire that beats 623 00:31:35,779 --> 00:31:38,480 within its core 624 00:31:38,480 --> 00:31:42,470 we expect that a heavier earth will be 625 00:31:42,470 --> 00:31:46,010 more geologically active that the 626 00:31:46,010 --> 00:31:49,370 increased amount of geothermal heat 627 00:31:49,370 --> 00:31:52,070 within the super earth will lead to 628 00:31:52,070 --> 00:31:56,030 stronger motions of the magma underneath 629 00:31:56,030 --> 00:31:58,720 the crust 630 00:31:58,720 --> 00:32:01,660 belching volcanoes dot the surface of 631 00:32:01,660 --> 00:32:03,740 this super earth 632 00:32:03,740 --> 00:32:05,990 their gases feed a super thick 633 00:32:05,990 --> 00:32:08,750 atmosphere and help to regulate a super 634 00:32:08,750 --> 00:32:12,559 stable climate many times life on Earth 635 00:32:12,559 --> 00:32:15,770 was nearly extinguished for example once 636 00:32:15,770 --> 00:32:18,220 upon a time the earth was snowball earth 637 00:32:18,220 --> 00:32:21,740 completely covered in ice maybe in these 638 00:32:21,740 --> 00:32:25,039 other planets there are earth in which 639 00:32:25,039 --> 00:32:27,559 snowball earth never happened that the 640 00:32:27,559 --> 00:32:29,690 taught climate was always stable and 641 00:32:29,690 --> 00:32:33,080 temperate the grip of gravity is three 642 00:32:33,080 --> 00:32:35,169 times stronger here than we're used to 643 00:32:35,169 --> 00:32:38,659 it pulls mountain ranges down to a third 644 00:32:38,659 --> 00:32:41,919 the height they'd be on earth 645 00:32:42,789 --> 00:32:45,339 gravity also flattens the ocean bed 646 00:32:45,339 --> 00:32:48,190 making shallower CDs filled with 647 00:32:48,190 --> 00:32:51,459 volcanic island chains and the 648 00:32:51,459 --> 00:32:53,559 nutrient-rich waters that surround these 649 00:32:53,559 --> 00:32:56,019 archipelagos provide the perfect 650 00:32:56,019 --> 00:32:58,199 conditions for life 651 00:32:58,199 --> 00:33:01,479 in these other planets perhaps they have 652 00:33:01,479 --> 00:33:03,609 conditions which would make DNA get off 653 00:33:03,609 --> 00:33:06,039 the ground much earlier and flourish 654 00:33:06,039 --> 00:33:08,519 much more quickly 655 00:33:08,519 --> 00:33:11,739 finally our super earth may be protected 656 00:33:11,739 --> 00:33:17,889 by a super magnetosphere the magnetic 657 00:33:17,889 --> 00:33:20,979 field strength is a condition both of 658 00:33:20,979 --> 00:33:23,409 the mass of the planet as well as its 659 00:33:23,409 --> 00:33:26,259 rotation speed and so it is quite likely 660 00:33:26,259 --> 00:33:29,259 that a planet that is a couple of times 661 00:33:29,259 --> 00:33:31,599 bigger than the earths would be able to 662 00:33:31,599 --> 00:33:33,999 develop a stronger magnetic field may 663 00:33:33,999 --> 00:33:35,799 shield the planet even better than our 664 00:33:35,799 --> 00:33:38,829 magnetic field shields us having a 665 00:33:38,829 --> 00:33:40,719 stronger magnetosphere would be a 666 00:33:40,719 --> 00:33:43,149 distinct advantage for life on a super 667 00:33:43,149 --> 00:33:45,429 earth surrounding the Milky Way's most 668 00:33:45,429 --> 00:33:48,819 plentiful kind of star the M dwarf or 669 00:33:48,819 --> 00:33:54,249 red dwarf star red dwarf habitable zones 670 00:33:54,249 --> 00:33:57,279 are much closer in than the earth is to 671 00:33:57,279 --> 00:33:59,889 the Sun because their host star is so 672 00:33:59,889 --> 00:34:02,440 dim as if you took the terrestrial 673 00:34:02,440 --> 00:34:04,029 planets in our own solar system and 674 00:34:04,029 --> 00:34:05,859 zapped it with a shrink ray gun and 675 00:34:05,859 --> 00:34:07,869 shrunk them down to orbital periods that 676 00:34:07,869 --> 00:34:10,179 are less than about 30 days meaning that 677 00:34:10,179 --> 00:34:14,139 they're very close to their stars some 678 00:34:14,139 --> 00:34:16,029 astronomers believe these planets are at 679 00:34:16,029 --> 00:34:18,219 risk from solar activity such as deadly 680 00:34:18,219 --> 00:34:20,668 flares 681 00:34:23,369 --> 00:34:25,799 but a super-earth with a super 682 00:34:25,799 --> 00:34:28,559 protective magnetosphere may well resist 683 00:34:28,559 --> 00:34:31,018 these deadly rays allowing life to 684 00:34:31,018 --> 00:34:34,109 flourish under a psychedelic sky full of 685 00:34:34,109 --> 00:34:38,429 swirling Aurora's if one was standing on 686 00:34:38,429 --> 00:34:40,829 a super earth we would see the aurora 687 00:34:40,829 --> 00:34:45,268 come down to lower latitudes might get 688 00:34:45,268 --> 00:34:47,898 different colors 689 00:34:48,620 --> 00:34:51,080 if I had the opportunity to travel to 690 00:34:51,080 --> 00:34:53,659 one of these exoplanets I would snap 691 00:34:53,659 --> 00:34:58,460 that up pretty quickly most intriguing 692 00:34:58,460 --> 00:35:01,370 of all if life does exist on a red dwarf 693 00:35:01,370 --> 00:35:04,040 super earth it could be home to the 694 00:35:04,040 --> 00:35:06,500 longest-lived civilizations in the 695 00:35:06,500 --> 00:35:09,740 entire universe the advantage of the M 696 00:35:09,740 --> 00:35:11,990 Dwarfs is that they last for much longer 697 00:35:11,990 --> 00:35:13,250 and if you had a super earth then 698 00:35:13,250 --> 00:35:16,130 keeping a strong magnetic field going 699 00:35:16,130 --> 00:35:18,050 for billions and billions of years 700 00:35:18,050 --> 00:35:20,990 especially now around a red dwarf that 701 00:35:20,990 --> 00:35:22,490 is going to exist for billions and 702 00:35:22,490 --> 00:35:23,900 billions of years you might be in that 703 00:35:23,900 --> 00:35:26,810 perfect system where life can exist and 704 00:35:26,810 --> 00:35:29,060 evolve into even more complex beings 705 00:35:29,060 --> 00:35:31,540 than us 706 00:35:31,780 --> 00:35:34,680 we're getting so close 707 00:35:34,680 --> 00:35:36,930 our local neighborhood of stars teens 708 00:35:36,930 --> 00:35:39,510 with red dwarfs bursting with the 709 00:35:39,510 --> 00:35:42,859 potential for advanced life 710 00:35:42,859 --> 00:35:45,559 but they're also cosmic killers out 711 00:35:45,559 --> 00:35:48,469 there lurking in our galaxy prime to 712 00:35:48,469 --> 00:35:51,830 wipe out life on a regular basis 713 00:35:51,830 --> 00:36:07,850 is anywhere safe the exoplanet 714 00:36:07,850 --> 00:36:11,120 revolution is in full swing the Kepler 715 00:36:11,120 --> 00:36:13,310 space telescope has scanned our local 716 00:36:13,310 --> 00:36:15,380 neighborhood of stars for planets and 717 00:36:15,380 --> 00:36:20,320 it's found them by the thousands 718 00:36:21,690 --> 00:36:24,450 for a long time we didn't know if the 719 00:36:24,450 --> 00:36:26,490 other stars in our galaxy had planets 720 00:36:26,490 --> 00:36:28,920 and for thousands of years there was no 721 00:36:28,920 --> 00:36:31,680 way to answer that question finally now 722 00:36:31,680 --> 00:36:34,470 with modern technology we can do that 723 00:36:34,470 --> 00:36:37,260 and to our surprise we found they are 724 00:36:37,260 --> 00:36:42,539 extremely common from Kepler's small 725 00:36:42,539 --> 00:36:44,640 sample astronomers believe there could 726 00:36:44,640 --> 00:36:47,039 be tens of billions of rocky earth-like 727 00:36:47,039 --> 00:36:49,859 planets throughout the Milky Way where 728 00:36:49,859 --> 00:36:55,740 life may already be thriving but how 729 00:36:55,740 --> 00:36:57,599 many of these countless worlds is held 730 00:36:57,599 --> 00:36:59,819 onto this life long enough for 731 00:36:59,819 --> 00:37:03,049 intelligence to evolve 732 00:37:03,630 --> 00:37:06,749 the answer surprisingly may depend on a 733 00:37:06,749 --> 00:37:10,279 planet's galactic zip code 734 00:37:10,839 --> 00:37:13,059 the universe is not a happy safe place 735 00:37:13,059 --> 00:37:15,429 the universe wants to kill us 736 00:37:15,429 --> 00:37:18,459 it's incredibly violent out there 737 00:37:18,459 --> 00:37:20,979 they're solar flares and supernovae and 738 00:37:20,979 --> 00:37:22,869 black holes and colliding galaxies and 739 00:37:22,869 --> 00:37:25,150 all these really amazingly dangerous and 740 00:37:25,150 --> 00:37:27,159 violent events it's actually kind of 741 00:37:27,159 --> 00:37:30,260 amazing that we're here at all 742 00:37:30,260 --> 00:37:33,140 in order to develop advanced intelligent 743 00:37:33,140 --> 00:37:35,120 life an exoplanet 744 00:37:35,120 --> 00:37:37,300 may have to avoid these cosmic killers 745 00:37:37,300 --> 00:37:43,610 for over three billion years if we look 746 00:37:43,610 --> 00:37:45,230 at the history of the earth the first 747 00:37:45,230 --> 00:37:47,570 thing that happens that's important is 748 00:37:47,570 --> 00:37:49,310 the origin of life right away very 749 00:37:49,310 --> 00:37:52,100 quickly but then nothing for a long time 750 00:37:52,100 --> 00:37:54,500 you have nothing but microbes stomping 751 00:37:54,500 --> 00:37:55,990 on the earth 752 00:37:55,990 --> 00:37:57,760 for the first two and a half billion 753 00:37:57,760 --> 00:38:00,480 years the earth was ruled by 754 00:38:00,480 --> 00:38:04,390 single-celled Goom multicellular life 755 00:38:04,390 --> 00:38:07,490 has only been around for a billion years 756 00:38:07,490 --> 00:38:11,570 fish for 500 million mammals for 200 757 00:38:11,570 --> 00:38:12,839 million 758 00:38:12,839 --> 00:38:15,599 and modern humans have only walked the 759 00:38:15,599 --> 00:38:20,040 earth for the last 200,000 years 760 00:38:20,040 --> 00:38:22,800 the lesson is clear it takes a long time 761 00:38:22,800 --> 00:38:26,840 to cook up intelligent life 762 00:38:28,050 --> 00:38:31,030 but most planets in the Milky Way don't 763 00:38:31,030 --> 00:38:33,990 have that kind of time 764 00:38:35,060 --> 00:38:37,140 astronomers believe that a planet's 765 00:38:37,140 --> 00:38:40,200 position within a galaxy may determine 766 00:38:40,200 --> 00:38:42,599 if it gets hit by global extinction 767 00:38:42,599 --> 00:38:46,349 events there's an idea of a habitable 768 00:38:46,349 --> 00:38:49,349 zone for a galaxy and it's an analogy to 769 00:38:49,349 --> 00:38:53,010 the habitable zone around stars stars 770 00:38:53,010 --> 00:38:55,740 too close to the galactic center are in 771 00:38:55,740 --> 00:38:57,450 the firing line from their violent 772 00:38:57,450 --> 00:39:00,300 neighbors which frequently blast them 773 00:39:00,300 --> 00:39:04,160 with deadly high-energy radiation 774 00:39:05,270 --> 00:39:08,240 in the middle of a galaxy we have a lot 775 00:39:08,240 --> 00:39:10,730 of bright stars and young stars and 776 00:39:10,730 --> 00:39:13,280 maybe even supernova going off and so 777 00:39:13,280 --> 00:39:14,900 there's a very harsh radiation field 778 00:39:14,900 --> 00:39:21,920 that's not good for life fired up by the 779 00:39:21,920 --> 00:39:24,230 supermassive black hole that sits at the 780 00:39:24,230 --> 00:39:25,600 center of the Milky Way 781 00:39:25,600 --> 00:39:28,850 this cosmic Killzone stretches out 782 00:39:28,850 --> 00:39:31,280 around 8,000 light years from the 783 00:39:31,280 --> 00:39:33,710 galactic center and extends out along 784 00:39:33,710 --> 00:39:39,800 the densely packed spiral arms any 785 00:39:39,800 --> 00:39:42,410 planets that exist within this zone are 786 00:39:42,410 --> 00:39:45,020 likely to have their surfaces regularly 787 00:39:45,020 --> 00:39:48,890 scrubbed clean of life fortunately for 788 00:39:48,890 --> 00:39:52,010 us our home star the Sun sits in a 789 00:39:52,010 --> 00:39:55,250 relatively empty quiet zone between two 790 00:39:55,250 --> 00:39:59,960 of the galaxy's spiral arms so there's 791 00:39:59,960 --> 00:40:01,940 this idea that there's a band in the 792 00:40:01,940 --> 00:40:03,770 middle of the galaxy that's the Galactic 793 00:40:03,770 --> 00:40:05,420 habitable zone where you don't have too 794 00:40:05,420 --> 00:40:07,520 many stars going off you don't have too 795 00:40:07,520 --> 00:40:09,290 many supernovae so it's quiet in that 796 00:40:09,290 --> 00:40:11,060 way those might be great places for 797 00:40:11,060 --> 00:40:12,830 complex life 798 00:40:12,830 --> 00:40:15,110 these green zones are like the suburbs 799 00:40:15,110 --> 00:40:17,660 the Milky Way galaxy they're sheltered 800 00:40:17,660 --> 00:40:21,820 from the worst of the galaxy's radiation 801 00:40:21,940 --> 00:40:24,740 it's here that earth-like worlds will 802 00:40:24,740 --> 00:40:27,310 have the luxury of long uninterrupted 803 00:40:27,310 --> 00:40:30,230 periods for life to take hold and 804 00:40:30,230 --> 00:40:32,620 develop into more complex forms and 805 00:40:32,620 --> 00:40:36,650 eventually perhaps intelligent life like 806 00:40:36,650 --> 00:40:38,830 us 807 00:40:41,410 --> 00:40:44,440 the Galactic habitable zone is no more 808 00:40:44,440 --> 00:40:46,870 than a fledgling theory but if it's true 809 00:40:46,870 --> 00:40:49,390 it reduces the number of places where 810 00:40:49,390 --> 00:40:51,670 advanced life could flourish in the 811 00:40:51,670 --> 00:40:54,000 Milky Way 812 00:40:56,390 --> 00:40:59,970 the good news is those places should be 813 00:40:59,970 --> 00:41:03,270 near us and aliens more likely to be on 814 00:41:03,270 --> 00:41:06,359 our doorstep and with our technology 815 00:41:06,359 --> 00:41:09,060 getting better every day it surely won't 816 00:41:09,060 --> 00:41:13,339 be long before we find them 817 00:41:13,500 --> 00:41:16,859 I think in 20 years time I'm gonna be 818 00:41:16,859 --> 00:41:18,480 able to look up into the night sky and 819 00:41:18,480 --> 00:41:20,790 say there really is another place I 820 00:41:20,790 --> 00:41:24,710 could stand like this and feel at home 821 00:41:25,120 --> 00:41:27,970 suddenly we humans will realize for the 822 00:41:27,970 --> 00:41:30,580 first time that there are other cultures 823 00:41:30,580 --> 00:41:32,650 other civilizations probably other 824 00:41:32,650 --> 00:41:35,500 religions out there among the stars and 825 00:41:35,500 --> 00:41:38,890 we are just one member of a grand 826 00:41:38,890 --> 00:41:44,020 galactic tribe to have cousins that we 827 00:41:44,020 --> 00:41:46,420 one day may communicate with seems to me 828 00:41:46,420 --> 00:41:48,220 to be potentially one of the greatest 829 00:41:48,220 --> 00:41:49,780 developments that humanity will ever 830 00:41:49,780 --> 00:41:53,410 ever experience and if that isn't worth 831 00:41:53,410 --> 00:41:54,920 doing I don't know what is 62237