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These are the user uploaded subtitles that are being translated: 1 00:00:13,270 --> 00:00:20,090 An alien sunrise ushers in a new day, but 2 00:00:30,860 --> 00:00:34,620 will alien eyes gaze upon it or 3 00:00:47,700 --> 00:00:48,740 will it go unseen? 4 00:00:54,150 --> 00:00:58,050 Just another moment in a vast, sterile universe. 5 00:01:07,190 --> 00:01:10,090 The hunt is on for the answer. 6 00:01:27,860 --> 00:01:35,860 The Milky Way. 7 00:01:51,740 --> 00:01:54,120 Hundreds of billions of stars. 8 00:02:02,470 --> 00:02:05,850 Spread across a hundred thousand light years of space. 9 00:02:06,970 --> 00:02:14,650 The Sun. 10 00:02:18,780 --> 00:02:21,480 With eight planets orbiting around it. 11 00:02:22,240 --> 00:02:23,700 Including our home. 12 00:02:26,750 --> 00:02:30,870 Until very recently, these were the only worlds we knew of. 13 00:02:31,230 --> 00:02:36,330 The only planets we could hope to explore for signs of life beyond Earth. 14 00:02:46,890 --> 00:02:51,001 When I first got into astronomy back in the 1970s, 15 00:02:51,002 --> 00:02:53,950 we knew of no planets beyond our solar system. 16 00:02:54,030 --> 00:02:57,570 We didn't have the technology to detect them even if they were there. 17 00:02:58,690 --> 00:03:02,310 Our neighbourhood was the only place we could look for life. 18 00:03:06,380 --> 00:03:09,520 And so the hunt for life began in our own backyard. 19 00:03:16,940 --> 00:03:19,577 Over the last few decades, multiple missions 20 00:03:19,578 --> 00:03:22,801 have explored our solar system's planets. 21 00:03:28,940 --> 00:03:30,700 And even some of their moons. 22 00:03:38,300 --> 00:03:43,345 But to date, even as we continue to look, no convincing 23 00:03:43,346 --> 00:03:46,980 evidence of life has been found on any of these worlds. 24 00:03:54,940 --> 00:03:59,540 Earth remains one-of-a-kind, the 25 00:04:03,500 --> 00:04:06,000 only living world around the Sun. 26 00:04:15,450 --> 00:04:21,230 But as the exploration of the solar system continued, another search had begun. 27 00:04:23,310 --> 00:04:26,530 For worlds that lie far beyond these shores. 28 00:04:28,490 --> 00:04:32,630 You know the wonderful thing about astronomy is that as we develop better and 29 00:04:32,631 --> 00:04:37,170 better technology and accumulate more and more knowledge about our universe, 30 00:04:37,550 --> 00:04:42,870 we turn more and more of these points of light in the sky into worlds. 31 00:04:43,370 --> 00:04:50,210 I mean that, we've known, is a world for a long time because that is the planet Mars. 32 00:04:51,040 --> 00:04:54,530 But just above Mars tonight is a constellation called Pegasus. 33 00:04:55,215 --> 00:04:56,535 This is the square of the planet. 34 00:04:59,735 --> 00:05:04,926 And we now know that around there is a star called 35 00:05:04,927 --> 00:05:08,990 51 Pegasi which has a planet orbiting around it. 36 00:05:09,050 --> 00:05:12,624 A gas giant about the size of Jupiter that goes 37 00:05:12,625 --> 00:05:16,571 round that faint point of light every four days. 38 00:05:17,240 --> 00:05:22,430 It is wonderful to think that in my lifetime, in fact in my adult lifetime, 39 00:05:22,570 --> 00:05:26,490 in the last 25 years, we've gone from a universe of stars. 40 00:05:26,510 --> 00:05:30,210 That could have been devoid of planets beyond our solar system. 41 00:05:30,665 --> 00:05:36,750 To a universe that we know is teeming with places that we can search for life. 42 00:05:46,890 --> 00:05:49,592 Over the last three decades, some of the most 43 00:05:49,593 --> 00:05:52,591 powerful telescopes on Earth have joined the hunt. 44 00:06:00,300 --> 00:06:03,220 Searching for planets unimaginably far away. 45 00:06:07,030 --> 00:06:08,730 Hiding in the dark. 46 00:06:15,780 --> 00:06:20,260 Planets like 51 Pegasi b, the 47 00:06:24,500 --> 00:06:29,180 first world outside our solar system to be detected around a sun-like star. 48 00:06:42,940 --> 00:06:46,996 51 Pegasi b is a gas giant, around half the 49 00:06:46,997 --> 00:06:51,941 mass of Jupiter, but far closer to its star. 50 00:06:56,180 --> 00:06:59,680 Just imagine what that world might be like. 51 00:07:06,410 --> 00:07:13,670 A world with skies torn by titanic winds, Where 52 00:07:17,440 --> 00:07:22,100 it's hot interior is bathed in rain of sapphires. 53 00:07:27,740 --> 00:07:32,800 In every sense, 51 Pegasi b is an alien world. 54 00:07:35,460 --> 00:07:41,420 And we soon discover that the galaxy is full of 55 00:07:41,421 --> 00:07:41,420 planets unlike anything seen in the solar system. 56 00:07:41,421 --> 00:07:44,580 In our solar system, planets 57 00:07:53,340 --> 00:07:55,600 enveloped by fierce radiation, 58 00:08:01,440 --> 00:08:08,341 their surfaces battered and stripped by the high energy strobing light of their star. 59 00:08:14,300 --> 00:08:18,940 Worlds so cold their atmospheres are frozen solid. 60 00:08:39,310 --> 00:08:43,330 Or great swollen planets with 61 00:08:47,000 --> 00:08:50,000 the density of styrofoam and 62 00:08:54,350 --> 00:08:55,810 fathomless atmospheres. 63 00:09:00,500 --> 00:09:06,180 These discoveries proved that in one sense, we really are not alone. 64 00:09:07,240 --> 00:09:12,340 There are other worlds out there waiting to be explored. 65 00:09:21,980 --> 00:09:27,240 We estimate that in the Milky Way Galaxy, there are more planets than stars. 66 00:09:28,020 --> 00:09:30,220 Hundreds of billions of them. 67 00:09:32,500 --> 00:09:35,220 That's hundreds of billions of places. 68 00:09:35,510 --> 00:09:35,900 That's hundreds of billions of places. 69 00:09:35,970 --> 00:09:36,970 To look for life. 70 00:09:39,620 --> 00:09:40,880 But there's a catch. 71 00:09:41,380 --> 00:09:46,060 Because not all worlds by a long stretch are like this one. 72 00:09:58,600 --> 00:10:03,740 The first planets we found appeared too bizarre, too large and 73 00:10:03,741 --> 00:10:07,740 often too close to their stars for living things to survive. 74 00:10:17,680 --> 00:10:23,280 To find worlds where life could exist, we needed to look for smaller rocky 75 00:10:23,281 --> 00:10:26,400 planets in orbits further from their stars. 76 00:10:34,680 --> 00:10:42,680 T minus 10, 9, 8, 7, 6, 5, 4, 3, 2, engine start, 1, 0 and liftoff of the 77 00:10:42,681 --> 00:10:47,920 Delta II rocket with Kepler on a search for planets in some way like our own. 78 00:10:50,400 --> 00:10:52,780 So the hunt moved to space. 79 00:10:53,020 --> 00:10:53,780 With the help of the Galaxy, we were able to find a new world. 80 00:10:53,781 --> 00:10:56,280 The launch of NASA's Kepler Space Telescope. 81 00:10:58,460 --> 00:10:59,740 And we have separation. 82 00:11:04,730 --> 00:11:09,130 Searching for Earth-like worlds in the galaxy beyond. 83 00:11:18,700 --> 00:11:22,140 Kepler crossed 94 million miles of space 84 00:11:27,180 --> 00:11:30,260 until it arrived in a steady orbit around the Sun, 85 00:11:40,150 --> 00:11:43,970 from where it looked out with a fixed and clear gaze. 86 00:11:48,250 --> 00:11:52,280 To a single patch of sky in the constellation of Cygnus. 87 00:12:05,660 --> 00:12:07,760 Exposing its sensitive light meter 88 00:12:13,900 --> 00:12:17,030 to the light of 150,000 stars. 89 00:12:24,770 --> 00:12:28,640 It began to look for Earth-like alien worlds. 90 00:12:49,640 --> 00:12:51,700 Kepler doesn't detect planets directly. 91 00:12:52,000 --> 00:12:54,040 They are far too small. 92 00:12:54,160 --> 00:12:57,260 They're just specks of dust relative to their parent star. 93 00:12:59,100 --> 00:13:00,700 They're also very faint. 94 00:13:00,920 --> 00:13:02,720 They don't emit light of their own. 95 00:13:02,820 --> 00:13:08,240 So they just glow very dimly in the reflected ambient light of their stars. 96 00:13:08,680 --> 00:13:11,520 So Kepler has to detect planets indirectly. 97 00:13:12,200 --> 00:13:18,320 Imagine that a moth just flew across the beam of light from the lighthouse. 98 00:13:18,760 --> 00:13:20,560 I wouldn't see the moth. 99 00:13:20,740 --> 00:13:24,760 But if I had a sensitive enough detector and everything was lined up properly, 100 00:13:24,920 --> 00:13:28,960 I might just see the brightness of the light dimming. 101 00:13:28,961 --> 00:13:32,020 And that is how Kepler detects planets. 102 00:13:32,340 --> 00:13:34,482 I mean, imagine there's an alien astronomer in 103 00:13:34,483 --> 00:13:36,780 some distant solar system looking back at the sun. 104 00:13:37,000 --> 00:13:42,580 And everything's lined up so they see the Earth trace across the face of our star. 105 00:13:42,840 --> 00:13:47,880 They would see the light from the sun dim by one hundredth of one percent. 106 00:13:48,260 --> 00:13:51,320 It's a tiny amount, but it's enough. 107 00:13:51,580 --> 00:13:57,200 And if they saw that dimming was regular, if they saw the star dim once every year 108 00:13:57,201 --> 00:14:03,440 in this case, then they would infer that there's a planet orbiting around the star. 109 00:14:22,140 --> 00:14:24,840 With its exquisitely sensitive light meter, 110 00:14:29,580 --> 00:14:33,260 Kepler sees only the regular dimming of pixels. 111 00:14:38,070 --> 00:14:39,810 Just a few bits of information. 112 00:14:44,230 --> 00:14:47,797 But from those bits, others can begin to build 113 00:14:47,798 --> 00:14:51,711 a picture of the worlds that dim the starlight. 114 00:14:59,380 --> 00:15:04,020 Worlds that might, in some way, resemble our own. 115 00:15:13,460 --> 00:15:15,920 Worlds like Kepler-36b. 116 00:15:25,550 --> 00:15:28,310 The planet was one of Kepler's earliest discoveries. 117 00:15:37,300 --> 00:15:41,140 Orbiting a star similar to our own, we'd found a 118 00:15:41,141 --> 00:15:45,220 world that, at first glance, might seem familiar. 119 00:15:50,860 --> 00:15:55,817 Weighing in at around four times the mass of our own planet, 120 00:15:55,818 --> 00:15:59,640 Kepler-36b was one of the first of a new class of planet. 121 00:16:00,340 --> 00:16:01,880 A super earth. 122 00:16:11,780 --> 00:16:16,180 The Kepler data doesn't just allow us to say there's a planet around that star. 123 00:16:16,400 --> 00:16:19,740 It allows us to characterize those planets. 124 00:16:20,080 --> 00:16:25,380 So by looking at the precise way that the light fades and then rises again, 125 00:16:25,381 --> 00:16:30,780 and the timing between the dips, we can measure the orbit of the planets. 126 00:16:31,060 --> 00:16:35,080 And if there are multiple planets in the system, we can even estimate their masses. 127 00:16:35,480 --> 00:16:42,101 So the Kepler data allows astronomers to paint a picture of the worlds it discovers. 128 00:16:55,140 --> 00:17:00,709 But the more detailed our picture of Kepler-36b became, 129 00:17:00,710 --> 00:17:05,340 the less earth-like this super earth appeared to be. 130 00:17:13,010 --> 00:17:19,250 It orbits very close to its star, circling once every 14 days. 131 00:17:27,310 --> 00:17:28,910 It has company. 132 00:17:32,050 --> 00:17:34,930 A gigantic gaseous companion. 133 00:17:36,210 --> 00:17:40,350 With an orbit unusually close to its smaller sibling. 134 00:17:41,750 --> 00:17:46,301 The proximity of both its star and sister planet allows 135 00:17:46,302 --> 00:17:50,510 us to imagine the bizarre conditions that may exist. 136 00:17:50,511 --> 00:17:53,010 On the surface of Kepler-36b. 137 00:18:04,150 --> 00:18:06,430 The planet may be tidally locked. 138 00:18:06,950 --> 00:18:11,030 Which would mean that one hemisphere always faces the star. 139 00:18:18,580 --> 00:18:24,060 On this side, the punishing heat could turn the ground molten. 140 00:18:28,470 --> 00:18:32,730 Creating rivers of lava that would criss-cross the surface. 141 00:18:32,731 --> 00:18:34,350 The 142 00:18:42,530 --> 00:18:46,090 planet could experience violent eruptions. 143 00:18:47,090 --> 00:18:52,310 As the gravitational pull of the gas giant triggers intense volcanism. 144 00:19:00,440 --> 00:19:03,040 Each time, it passes by. 145 00:19:04,080 --> 00:19:05,080 But 146 00:19:27,980 --> 00:19:32,900 Kepler-36b could also be... a planet of ice. 147 00:19:41,400 --> 00:19:45,295 Because if it's tidally locked, the far side 148 00:19:45,296 --> 00:19:48,581 would face permanently away from the star. 149 00:19:51,360 --> 00:19:57,720 And we could imagine a freezing cold hemisphere shrouded in eternal darkness. 150 00:20:11,830 --> 00:20:15,750 For now, this is all just informed speculation. 151 00:20:18,370 --> 00:20:22,490 But we are beginning to build a picture of these worlds. 152 00:20:22,491 --> 00:20:29,391 I mean, imagine a world where the sun stays at the same point in the sky forever. 153 00:20:29,910 --> 00:20:33,090 So one side of the planet is in eternal night. 154 00:20:33,150 --> 00:20:35,450 And the other side in eternal day. 155 00:20:35,630 --> 00:20:39,993 And even the twilight strip between day and night, 156 00:20:39,994 --> 00:20:43,330 we think, would suffer from extreme conditions. 157 00:20:48,200 --> 00:20:54,600 So Kepler-36b just goes to show there's so much more to having a habitable world. 158 00:20:54,601 --> 00:20:58,120 Than just the composition of the planet. 159 00:20:58,340 --> 00:21:00,160 There's the details of its orbit. 160 00:21:00,260 --> 00:21:04,496 And also the nature of the other objects in the solar 161 00:21:04,497 --> 00:21:07,600 system that are orbiting around the star with it. 162 00:21:22,940 --> 00:21:28,320 Kepler-36b is just one of thousands of planets that Kepler has discovered. 163 00:21:35,490 --> 00:21:39,385 We now know, beyond doubt, that our galaxy is 164 00:21:39,386 --> 00:21:43,831 home to a diverse collection of alien worlds. 165 00:21:51,180 --> 00:21:54,396 Each one of the over 4,000 planets that we've 166 00:21:54,397 --> 00:21:57,240 discovered to date is different from all the others. 167 00:21:57,420 --> 00:22:00,160 They really are an alien and exotic bunch. 168 00:22:00,240 --> 00:22:02,705 And there's certainly no planet that's identical 169 00:22:02,706 --> 00:22:05,241 to the planets that we know of in our solar system. 170 00:22:07,160 --> 00:22:10,620 And I think that reveals a deep truth about the universe. 171 00:22:10,980 --> 00:22:16,400 Because although the laws of nature that form the planets are simple and the same 172 00:22:16,401 --> 00:22:20,500 everywhere, and the fundamental ingredients out of which the planets are 173 00:22:20,501 --> 00:22:26,280 made are simple and the same everywhere, the nature of a planet also depends on the 174 00:22:26,281 --> 00:22:30,013 history of its formation and the environment around 175 00:22:30,014 --> 00:22:32,520 its parent star out of which the planet's formed. 176 00:22:32,820 --> 00:22:35,720 And those are all radically different. 177 00:22:37,880 --> 00:22:41,080 So each planet has a different story to tell. 178 00:22:41,140 --> 00:22:43,480 I suppose in that sense, planets are like human beings. 179 00:22:43,740 --> 00:22:47,815 And this wholly unexpected, but exciting discovery 180 00:22:47,816 --> 00:22:51,561 certainly complicates the search for life. 181 00:22:58,230 --> 00:23:03,291 We needed to narrow the search for planets further, 182 00:23:03,292 --> 00:23:07,231 but not too far away from their parent stars. 183 00:23:11,680 --> 00:23:18,821 Planets at just the right distance for their surfaces potentially to be habitable. 184 00:23:21,270 --> 00:23:24,450 Alien worlds with one precious ingredient. 185 00:23:25,190 --> 00:23:27,630 That makes Earth a living planet. 186 00:23:48,730 --> 00:23:53,550 Now you might legitimately ask, can we transfer all the knowledge we have 187 00:23:53,551 --> 00:23:57,290 of life here on Earth to planets elsewhere in the universe? 188 00:23:58,150 --> 00:24:01,150 Well, I would answer emphatically, yes, we can. 189 00:24:01,530 --> 00:24:03,170 Because the laws of nature are universal. 190 00:24:03,820 --> 00:24:09,330 So the laws of physics and chemistry that underpin biology here on this planet will 191 00:24:09,331 --> 00:24:12,265 apply to every planet out there in the 192 00:24:12,277 --> 00:24:15,751 universe, whether we've discovered it or not. 193 00:24:21,745 --> 00:24:25,260 The chemistry of life requires a few basic ingredients. 194 00:24:25,500 --> 00:24:28,200 Carbon, nitrogen, oxygen, iron. 195 00:24:30,000 --> 00:24:34,132 And it also requires a ready supply of high quality energy 196 00:24:34,133 --> 00:24:37,820 from heat within the planets or perhaps from starlight. 197 00:24:42,060 --> 00:24:46,866 But life here on Earth also requires one very important 198 00:24:46,867 --> 00:24:50,500 fundamental extra ingredient, which is liquid water. 199 00:24:50,800 --> 00:24:54,200 Liquid water is a deceptively complicated substance. 200 00:24:54,480 --> 00:24:55,640 It's a very powerful solvent. 201 00:24:55,900 --> 00:25:00,800 But it also has structures which are constantly forming and disappearing within 202 00:25:00,801 --> 00:25:05,060 it which act as a kind of scaffolding around which biology happens. 203 00:25:09,860 --> 00:25:15,240 Organic molecules are orientated by that scaffolding so they can react together. 204 00:25:16,780 --> 00:25:20,860 Now, it is certain that every living thing 205 00:25:20,861 --> 00:25:24,480 here on Earth requires liquid water to survive. 206 00:25:24,860 --> 00:25:29,620 And I would say it is a very good assumption that every living thing 207 00:25:29,621 --> 00:25:33,720 anywhere out there in the universe will require it too. 208 00:25:55,700 --> 00:25:58,240 The universe is filled with water. 209 00:25:59,500 --> 00:26:02,895 Great reservoirs have been detected throughout the 210 00:26:02,896 --> 00:26:06,440 galaxy, amongst the gas clouds of giant nebulae. 211 00:26:10,520 --> 00:26:15,306 But just because water is plentiful, that doesn't mean that 212 00:26:15,307 --> 00:26:19,420 it necessarily ends up in oceans on planetary surfaces. 213 00:26:27,160 --> 00:26:31,268 Of the eight planets in our solar system, only one has 214 00:26:31,269 --> 00:26:35,080 liquid water flowing permanently on its surface today. 215 00:26:40,200 --> 00:26:45,100 An ocean world where, long ago, life began. 216 00:27:04,600 --> 00:27:10,020 Around four billion years ago, life on Earth would have begun probably in 217 00:27:10,021 --> 00:27:14,560 places not dissimilar to this, where there's geothermal activity, 218 00:27:15,000 --> 00:27:20,120 a source of energy, in contact with rich concentrations of reactive chemical 219 00:27:20,121 --> 00:27:28,121 elements and minerals, but also, crucially, that, the magical solvent, liquid water. 220 00:27:28,700 --> 00:27:34,800 Now, many rocky planets out there, in the galaxy, will probably have this. 221 00:27:35,120 --> 00:27:38,521 But far fewer, we think, will have that, 222 00:27:38,533 --> 00:27:42,280 large bodies of liquid water on the surface. 223 00:27:42,680 --> 00:27:46,660 So that's why there's a kind of a catchphrase in the astrobiology community, 224 00:27:47,040 --> 00:27:52,240 which is, if you want to search for life, follow the water. 225 00:28:06,260 --> 00:28:08,340 Whilst life on Earth was evolving, 226 00:28:16,700 --> 00:28:23,100 124 light years away, amidst a collapsing cloud of gas, dust and ice, 227 00:28:27,630 --> 00:28:30,090 a small star was born, 228 00:28:36,880 --> 00:28:42,820 and the cloud's swirling leftovers condensed to form a brand new world. 229 00:28:49,980 --> 00:28:53,494 In 2015, Kepler found a planet orbiting 230 00:28:53,506 --> 00:28:57,561 comfortably within its star's habitable zone. 231 00:29:12,080 --> 00:29:17,500 More than eight times the mass of the Earth, K218b is a giant. 232 00:29:18,400 --> 00:29:19,400 A powerful 233 00:29:28,780 --> 00:29:30,400 gravitational pull. 234 00:29:40,550 --> 00:29:43,084 If the planet is rocky, this may have 235 00:29:43,096 --> 00:29:46,111 allowed it to hang on to a thick atmosphere. 236 00:29:49,770 --> 00:29:53,610 K218b might have all the makings of a water world. 237 00:29:59,410 --> 00:30:04,750 And a legendary space telescope had Kepler's new discovery in its sights. 238 00:30:11,230 --> 00:30:15,970 The most powerful space telescope of them all had joined the hunt. 239 00:30:22,250 --> 00:30:25,803 Hubble examined the light from K218b's parent 240 00:30:25,804 --> 00:30:29,811 star as the planet passed in front of it. 241 00:30:31,290 --> 00:30:38,970 And detected what may be a faint signature of a water vapour. 242 00:30:45,090 --> 00:30:49,869 124 light years from Earth, we may have at last 243 00:30:49,870 --> 00:30:54,091 found the evidence of water on an alien world. 244 00:30:55,450 --> 00:31:00,970 This was the first observation of water vapour in the atmosphere of a planet 245 00:31:00,971 --> 00:31:04,150 orbiting in the habitable zone around its star. 246 00:31:04,730 --> 00:31:06,690 Now, admittedly, measurement of the amount of 247 00:31:06,691 --> 00:31:08,670 water vapour in the atmosphere is pretty wide. 248 00:31:08,790 --> 00:31:12,990 It's somewhere between 0.01% and 50%. 249 00:31:12,991 --> 00:31:15,210 I mean, this is a planet that's a long way away. 250 00:31:15,430 --> 00:31:21,710 But for comparison, our planet has a few percent water vapour in its atmosphere. 251 00:31:21,711 --> 00:31:25,030 So that observation is important for two reasons. 252 00:31:25,150 --> 00:31:26,670 One is, it is not zero. 253 00:31:26,970 --> 00:31:29,370 There is water vapour in the atmosphere. 254 00:31:29,610 --> 00:31:35,310 But secondly, if the measurement is at the lower end, a few percent of water vapour 255 00:31:35,311 --> 00:31:40,108 in the atmosphere, then that is consistent with this 256 00:31:40,109 --> 00:31:44,590 world being a planet with oceans on its surface. 257 00:31:50,650 --> 00:31:55,670 The nature of this planet is currently the subject of intense scientific debate. 258 00:31:57,370 --> 00:32:03,290 The planet may be more like a mini-Neptune, a gas planet. 259 00:32:07,640 --> 00:32:13,580 But it is possible to dream of a rocky alien world with skies full of clouds, 260 00:32:18,030 --> 00:32:23,930 where water droplets collect and eventually fall, 261 00:32:29,590 --> 00:32:31,270 feeding vast oceans. 262 00:32:33,830 --> 00:32:38,090 That cover the surface of a massive planet. 263 00:32:40,870 --> 00:32:42,430 A water world. 264 00:32:51,410 --> 00:32:57,250 Where the elixir of life is in plentiful supply. 265 00:33:05,030 --> 00:33:08,902 K218b is exciting because it's the smallest world 266 00:33:08,903 --> 00:33:11,270 with an atmosphere that we've been able to analyse. 267 00:33:11,271 --> 00:33:17,430 And we've found that its mass and density, the composition of its atmosphere and its 268 00:33:17,431 --> 00:33:20,570 orbits are consistent with it being a world with water. 269 00:33:22,490 --> 00:33:26,490 And it might be a world with oceans on its surface. 270 00:33:26,830 --> 00:33:28,710 We don't know for sure. 271 00:33:28,950 --> 00:33:32,457 But just imagine what that small, faraway 272 00:33:32,458 --> 00:33:36,470 world around a faint red star might be like. 273 00:33:44,200 --> 00:33:46,650 Kepler went on to make many more discoveries. 274 00:33:58,390 --> 00:34:04,290 Until, in October 2018, it finally ran out of fuel. 275 00:34:11,110 --> 00:34:17,070 After nine years, it had found over 2,500 alien worlds. 276 00:34:24,370 --> 00:34:29,870 Showing us just how common potentially Earth-like planets might be. 277 00:34:42,830 --> 00:34:49,510 We estimate that there may be around 20 billion potentially Earth-like worlds, 278 00:34:49,690 --> 00:34:52,749 that's rocky planets in the habitable zone around the star 279 00:34:52,750 --> 00:34:57,430 that may support liquid water on the surface in our galaxy. 280 00:34:57,650 --> 00:35:01,870 That is 20 billion potential homes for life. 281 00:35:12,650 --> 00:35:15,754 Now, we don't know the probability that given the 282 00:35:15,755 --> 00:35:19,150 right conditions, life will begin on a planet. 283 00:35:19,470 --> 00:35:22,470 But we do have evidence from our world. 284 00:35:22,670 --> 00:35:27,630 What we know is that here on Earth, life began pretty much as soon as it could 285 00:35:27,631 --> 00:35:32,230 after the Earth had formed and cooled down and the oceans formed on its surface. 286 00:35:32,590 --> 00:35:36,890 So that might suggest that whilst there isn't a sense of inevitability about the 287 00:35:36,891 --> 00:35:42,190 origin of life given the right conditions, it might at least be reasonably probable. 288 00:35:42,590 --> 00:35:48,710 So I think that there is at least a chance that life may have begun on some, 289 00:35:48,770 --> 00:35:53,470 perhaps many, of those 20 billion Earth-like worlds out there in our galaxy. 290 00:35:55,870 --> 00:35:59,730 But I think there are two questions about life. 291 00:36:00,190 --> 00:36:03,730 One question is about the origin and the existence of microbes. 292 00:36:04,110 --> 00:36:09,510 But often when we speak about aliens, what we really mean is not microbes but 293 00:36:09,511 --> 00:36:13,930 complex creatures, indeed things that we can speak to, civilizations. 294 00:36:14,970 --> 00:36:19,550 What is the probability there will be other civilizations out there in the Milky Way? 295 00:36:19,970 --> 00:36:22,970 Well, again, the answer is we don't know. 296 00:36:23,430 --> 00:36:28,387 But there are observations we can make, patterns we can see in 297 00:36:28,388 --> 00:36:32,850 the Milky Way that might allow us to make an educated guess. 298 00:37:11,040 --> 00:37:14,015 We don't know precisely how we highly 299 00:37:14,027 --> 00:37:17,721 intelligent complex creatures came to be here. 300 00:37:26,910 --> 00:37:31,890 But we do know for certain that life on Earth didn't begin this way. 301 00:37:35,810 --> 00:37:38,814 We are the product of a story that has been playing 302 00:37:38,815 --> 00:37:41,770 out for over a quarter of the age of the Universe. 303 00:37:45,370 --> 00:37:46,650 From microbes... 304 00:37:47,790 --> 00:37:53,490 to a global technological civilization reaching out for others. 305 00:37:55,370 --> 00:37:59,570 For now, at least, we remain surrounded by silence. 306 00:37:59,650 --> 00:38:03,450 The messages we've sent out into the cosmos remain unanswered. 307 00:38:03,490 --> 00:38:08,590 And the telescopes we use to scan the skies for alien signals remain quiet. 308 00:38:09,345 --> 00:38:11,870 Now, that's not to say, of course, that there aren't. 309 00:38:12,070 --> 00:38:13,806 But we do know that there are other civilizations out there. 310 00:38:13,830 --> 00:38:16,870 We may have been looking for the wrong thing in the wrong place. 311 00:38:17,370 --> 00:38:20,278 But I think the answer to the question of 312 00:38:20,279 --> 00:38:23,130 the great silence can be found here on Earth. 313 00:38:23,620 --> 00:38:29,430 Because here, it took four billion years of stability for a civilization to emerge. 314 00:38:29,650 --> 00:38:31,930 That is a vast amount of time. 315 00:38:32,380 --> 00:38:36,290 And when we look to the other worlds out there in the Milky Way, it's those two 316 00:38:36,291 --> 00:38:42,270 things, stability and time, that appear to be very rare commodities indeed. 317 00:38:52,080 --> 00:38:57,500 In 2013, the European Space Agency launched the Gaia Space Telescope. 318 00:39:00,700 --> 00:39:01,860 Its mission? 319 00:39:02,000 --> 00:39:04,660 To survey the stars of our galaxy. 320 00:39:04,880 --> 00:39:06,060 The Milky Way. 321 00:39:08,680 --> 00:39:11,060 Billions of stars have been mapped. 322 00:39:15,200 --> 00:39:20,000 Each star a potential host for alien worlds. 323 00:39:24,530 --> 00:39:27,990 And patterns are already beginning to emerge. 324 00:39:42,670 --> 00:39:44,990 Not all stars exist alone. 325 00:39:50,640 --> 00:39:52,900 Some have company. 326 00:40:01,540 --> 00:40:05,339 And bizarre as they seem, Gaia has discovered around 327 00:40:05,340 --> 00:40:09,060 a million of these binary or multiple star systems. 328 00:40:13,960 --> 00:40:16,470 We've known for a long time that binary star 329 00:40:16,471 --> 00:40:19,401 systems and indeed multiple star systems exist. 330 00:40:19,600 --> 00:40:23,400 But we didn't know precisely how common they are. 331 00:40:25,120 --> 00:40:30,380 But now we have a huge amount of high precision data including the Gaia data 332 00:40:30,381 --> 00:40:33,491 which tells us that around 50% of all 333 00:40:33,503 --> 00:40:37,200 sun-like stars are in multiple star systems. 334 00:40:37,400 --> 00:40:41,360 And for more massive stars, that number is 80%. 335 00:40:46,130 --> 00:40:50,282 So how does the prevalence of multiple star systems in 336 00:40:50,283 --> 00:40:54,090 the galaxy shift the odds in the hunt for another Earth? 337 00:40:56,330 --> 00:41:00,650 Could Earth-like planets exist in multiple star systems? 338 00:41:01,490 --> 00:41:04,770 And if so, what might their fate be? 339 00:41:10,890 --> 00:41:14,250 In 2020, we may have found a clue. 340 00:41:15,470 --> 00:41:20,610 A planet the size of Mars, floating freely through the galaxy. 341 00:41:21,970 --> 00:41:24,530 A so-called rogue world. 342 00:41:26,670 --> 00:41:30,030 But planets can't form alone in interstellar space. 343 00:41:31,270 --> 00:41:32,890 So where did it come from? 344 00:41:58,800 --> 00:42:01,220 Ushered in not by one star. 345 00:42:16,880 --> 00:42:20,500 Perhaps the rogue world grew up in a close binary system. 346 00:42:35,160 --> 00:42:38,060 Subject to the gravitational pull of two stars, 347 00:42:46,040 --> 00:42:48,140 its orbit may have been unstable. 348 00:42:56,790 --> 00:43:01,090 As its parent stars fought to control its destiny. 349 00:43:14,930 --> 00:43:18,693 Even in single star systems, the weak gravitational 350 00:43:18,694 --> 00:43:22,310 interactions between the planets can change their orbits. 351 00:43:22,790 --> 00:43:26,890 Now in a double star system, the planets are not only subjected to the 352 00:43:26,891 --> 00:43:29,739 gravitational pulls of each other, they're subjected 353 00:43:29,740 --> 00:43:32,870 to the stronger gravitational pull of another star. 354 00:43:33,290 --> 00:43:37,046 So even if a planet gets into a stable orbit, it's very 355 00:43:37,047 --> 00:43:40,850 likely the planet won't stay in that orbit for long. 356 00:43:41,150 --> 00:43:47,511 So in double star systems, the line between order and chaos is very thin indeed. 357 00:43:52,390 --> 00:43:57,910 Even subtle changes in a planet's orbit can lead to dramatic changes in climate. 358 00:43:58,930 --> 00:44:04,970 And that's why the surface conditions on planets in double star systems may be 359 00:44:04,971 --> 00:44:10,450 unlikely to remain stable enough for long enough for intelligent life to evolve. 360 00:44:19,410 --> 00:44:26,050 And the changes in the orbits of planets can, sometimes, be anything but subtle. 361 00:44:45,610 --> 00:44:53,610 A close encounter may have given the rogue world a final gravitational kick. 362 00:45:15,720 --> 00:45:23,720 Flinging it outwards and releasing it from the grip of its parent stars. 363 00:45:29,850 --> 00:45:31,450 Setting it loose. 364 00:45:36,990 --> 00:45:39,330 On a journey through the galaxy. 365 00:45:54,830 --> 00:45:57,190 Far from the warmth of its stars. 366 00:45:58,650 --> 00:46:02,310 Any liquid water the rogue world might once have had 367 00:46:07,270 --> 00:46:09,030 would have frozen solid. 368 00:46:14,410 --> 00:46:17,790 Any atmosphere that once protected it 369 00:46:25,390 --> 00:46:28,750 would have frozen out onto the surface. 370 00:46:32,700 --> 00:46:35,200 The rogue would have become a world. 371 00:46:37,680 --> 00:46:42,120 With conditions that no living thing could endure. 372 00:46:45,500 --> 00:46:50,080 An entire planet alone and adrift. 373 00:46:56,670 --> 00:47:01,490 Only to be detected by us millions of years later. 374 00:47:03,250 --> 00:47:07,090 A small earth-like rogue planet. 375 00:47:09,130 --> 00:47:10,890 Roaming the darkness of space. 376 00:47:12,030 --> 00:47:13,110 For eternity. 377 00:47:24,420 --> 00:47:28,440 This lonely wandering planet is not a unique world. 378 00:47:28,680 --> 00:47:32,820 Although rogue planets are very difficult to detect, it's estimated that there may 379 00:47:32,821 --> 00:47:36,020 be over a hundred billion of them in our galaxy. 380 00:47:36,220 --> 00:47:40,380 Rogue planets might be the most common type of planet in the Milky Way. 381 00:47:41,700 --> 00:47:45,540 And although we think most of them were torn away from their stars soon after 382 00:47:45,541 --> 00:47:52,320 formation, this does suggest that star systems are not always stable places where 383 00:47:52,420 --> 00:47:55,360 complex life could evolve over billions of years. 384 00:48:08,150 --> 00:48:12,070 Our hunt for another living planet has only just begun. 385 00:48:15,780 --> 00:48:17,920 Yet we've already learned so much. 386 00:48:25,400 --> 00:48:28,300 We've found our first rocky worlds. 387 00:48:30,520 --> 00:48:34,340 Some in the habitable zone around their stars. 388 00:48:42,670 --> 00:48:47,830 Some, potentially, with liquid water on the surface. 389 00:48:49,410 --> 00:48:54,250 Candidate worlds for future missions to search for evidence of life. 390 00:48:59,350 --> 00:49:03,770 But we've also found hordes of bizarre, tortured worlds. 391 00:49:06,290 --> 00:49:08,410 Orbiting around violent stars. 392 00:49:09,390 --> 00:49:10,390 The 393 00:49:18,180 --> 00:49:19,940 multitude of rogue planets. 394 00:49:21,980 --> 00:49:26,560 Where complex life, as we understand it, seems impossible. 395 00:49:35,280 --> 00:49:39,580 Perhaps it's these worlds that hint at the reason why. 396 00:49:41,000 --> 00:49:44,420 For now, one planet stands apart. 397 00:50:04,550 --> 00:50:10,290 Our planet seems to have largely escaped the violence, the chaos, the constant 398 00:50:10,291 --> 00:50:13,670 change that seems to characterise a galaxy like the Milky Way. 399 00:50:13,910 --> 00:50:16,410 Yes, there's been the odd mass extinction. 400 00:50:16,810 --> 00:50:19,658 But there's been an unbroken chain of life here 401 00:50:19,659 --> 00:50:22,670 on Earth, stretching back four billion years. 402 00:50:22,990 --> 00:50:27,410 And if that's what you need to go from the origin of life to a civilisation, 403 00:50:27,690 --> 00:50:31,550 then although there may be billions of worlds out there where life began, 404 00:50:32,010 --> 00:50:34,890 there may be very few civilisations. 405 00:50:36,210 --> 00:50:38,030 But that's just an opinion. 406 00:50:38,290 --> 00:50:39,830 It's an educated guess. 407 00:50:40,090 --> 00:50:45,490 And given the profound nature of the question, no matter how educated the 408 00:50:45,491 --> 00:50:51,350 guess, I think it would be ridiculous for us to stop looking both inside our galaxy 409 00:50:51,950 --> 00:50:52,950 and beyond. 410 00:50:56,240 --> 00:51:03,840 For we may have just received the first glimpse of a world beyond the Milky Way. 411 00:51:11,950 --> 00:51:16,178 Around 30 million light years away, nestled 412 00:51:16,179 --> 00:51:19,371 in the spiral arms of the Whirlpool Galaxy. 413 00:51:23,970 --> 00:51:26,730 A world the size of Saturn. 414 00:51:35,050 --> 00:51:38,670 A find that marks an expansion of our horizons. 415 00:51:43,670 --> 00:51:47,990 The beginning of the hunt for extra galactic planets. 416 00:51:51,590 --> 00:51:56,630 The potential discovery of a planet orbiting around a star in another galaxy 417 00:51:57,190 --> 00:51:59,050 is something that I never thought I'd see. 418 00:51:59,270 --> 00:52:04,650 And it opens up the intriguing possibility that we might be able to explore not only 419 00:52:04,651 --> 00:52:09,110 the question are we alone in our galaxy, but are we alone in the universe? 420 00:52:13,060 --> 00:52:17,520 The answer to that question may lie far in the future. 421 00:52:17,700 --> 00:52:19,640 We might never answer that question. 422 00:52:20,140 --> 00:52:24,000 But I said, the question are we alone is profound. 423 00:52:24,830 --> 00:52:29,000 Because answering it would teach us much more about what it means to be human. 424 00:52:33,430 --> 00:52:39,350 Well, I think we become a little bit more human with every world that we explore. 425 00:52:39,610 --> 00:52:45,910 Because that ability to lay the foundations, to explore questions to which 426 00:52:45,911 --> 00:52:50,970 we may never receive answers in our lifetime, questions for our children or 427 00:52:50,971 --> 00:52:53,771 our grandchildren to answer is a fundamental 428 00:52:53,783 --> 00:52:55,970 part of what it means to be human. 429 00:52:56,110 --> 00:53:00,708 It's a fundamental part of what makes us so special 430 00:53:00,709 --> 00:53:05,150 here on this little world looking up at the stars. 431 00:53:05,610 --> 00:53:08,230 Whether we're alone or not. 432 00:53:25,500 --> 00:53:32,840 One, two, three, four, three, two, engine start, one, zero and liftoff of the 433 00:53:32,841 --> 00:53:38,060 Delta II rocket with Kepler on a search for planets in some way like our own. 434 00:53:39,880 --> 00:53:42,240 We had worked together, thousands of people 435 00:53:42,241 --> 00:53:45,481 worked together and it's all coming together. 436 00:53:46,380 --> 00:53:47,600 And we have separation. 437 00:53:49,640 --> 00:53:52,357 It was so emotional to see the project they had 438 00:53:52,358 --> 00:53:55,780 worked on for so many years or decades go to space. 439 00:53:56,200 --> 00:53:59,440 And all that hope and promise all bundled up in the machinery. 440 00:54:07,850 --> 00:54:12,091 Kepler was an immediate success discovering over 2,000 441 00:54:12,092 --> 00:54:15,030 new planets in its first four years of operation. 442 00:54:20,740 --> 00:54:23,222 But in the summer of 2012 the team faced a 443 00:54:23,223 --> 00:54:26,701 challenge that threatened the entire mission. 444 00:54:30,590 --> 00:54:33,374 One of the things that the Kepler mission needs to operate 445 00:54:33,375 --> 00:54:35,950 are reaction wheels that spin and hold it on target. 446 00:54:38,190 --> 00:54:41,470 So always point at the same stars and doesn't jiggle. 447 00:54:41,990 --> 00:54:44,010 Well, we had four wheels that did that. 448 00:54:46,470 --> 00:54:49,169 And we knew that we only had a couple of spare gyroscopes 449 00:54:49,170 --> 00:54:53,010 and we knew that spacecraft tend to have gyros fail. 450 00:54:54,070 --> 00:54:55,070 And 451 00:54:58,270 --> 00:54:59,270 after a while it failed. 452 00:54:59,730 --> 00:55:01,930 Three months later the second one failed. 453 00:55:02,250 --> 00:55:06,770 And since we needed three, we could no longer look at the Kepler field of view. 454 00:55:07,830 --> 00:55:14,831 I had hope that they'll figure out a way to work with two gyros and indeed they did. 455 00:55:18,110 --> 00:55:23,170 So the very clever people, the engineers and scientists said what we can use is 456 00:55:23,171 --> 00:55:26,110 we'll use the sunshine for the third wheel. 457 00:55:26,310 --> 00:55:28,810 We'll make this thing reflect sunlight off it. 458 00:55:28,850 --> 00:55:31,770 We'll use the other two wheels and now we can point in the sky. 459 00:55:34,510 --> 00:55:38,990 The faint pressure of sunlight helped stabilize the telescope. 460 00:55:39,930 --> 00:55:44,030 That was kind of good news actually because it meant Kepler was going to have 461 00:55:44,031 --> 00:55:48,350 to go off the Kepler field now and we could get all kinds of other stars and 462 00:55:48,351 --> 00:55:52,190 observe them and so that it actually was a boon for stellar astronomy. 463 00:55:54,970 --> 00:56:02,370 After another four years of discoveries, in total it had found over 2,600 planets, 464 00:56:02,730 --> 00:56:07,370 making it by far our most successful planet hunter to date. 465 00:56:10,660 --> 00:56:14,140 It was sad when they sent the command to shut everything down. 466 00:56:14,660 --> 00:56:16,160 You know, it's asleep now. 467 00:56:16,440 --> 00:56:19,580 It's in orbit around the sun and it will continue that orbit. 468 00:56:20,420 --> 00:56:23,420 But since it launched from Earth, it will come back to Earth. 469 00:56:23,780 --> 00:56:27,200 It'll come and visit us again in about 40 years. 470 00:56:27,620 --> 00:56:31,500 And my hope is people will say this is a historic telescope. 471 00:56:31,740 --> 00:56:33,320 It told us about all these planets. 472 00:56:33,460 --> 00:56:37,700 And they will go up and pick up this telescope and bring it back to Earth and 473 00:56:37,701 --> 00:56:40,980 put it in the Air and Space Museum for us all to admire. 43417

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