Extra-Terrestrial Intelligence: How Common Is It?

1. Extra-Terrestrial Intelligence:How Common Is It? George Lebo 29 November 2011 AST 2037 1

2. The Drake Equation • First proposed by Cornell astronomer Frank Drake • Actual mathematical formula for estimating number of intelligent civilizations currently in the Galaxy 2

3. What about number of planets with life? • Nlife = N* fP ne fl • So … • N* = 3 x 1011 stars • fP = 1/200 fraction of “suitable stars” (an educated guess) • ne =1 suitable planets per suitable stars • fl = fraction of these planets where life forms 3

4. What about number of planets with life? • Nlife = N* fP ne fl • Nlife = 3 x 1011 stars * 1/200 * 1 * fl • = 1.5 billion * fl • If fl =1 , then we have 1.5 Billionlife-bearing planets in the Galaxy • If fl =1 in a million, then we have 1500 life-bearing planets in the Galaxy • If fl =1 in a billion, then we are on the ONLY life-bearing planet in the Galaxy 4

5. Summary from Last Time • Rarity/prevalence of life in the Galaxy depends on several factors • How many stars are there in the Galaxy? • How many of them are suitable for Life? • How many of those stars have suitable planets? • How many of those suitable planets around suitable stars produce Life? • We can calculate an estimate of the number of civilizations in the Galaxy using the Drake Equation • A shorter version tells us how many planets have any life at all • Current estimates: as high as 1.5 billion, as low as 1 (us!) 5

6. The Drake Equation • Nciv = N* fP ne fl fi ft Lciv / Lgal • Nciv = number of current civilizations in the Galaxy • N* = 3 x 1011 stars; fP = 1/200 fraction of “suitable stars”; ne =1 suitable planets per suitable stars • fl = fraction of these planets where life forms • fi = fraction of life-bearing planets where intelligence evolves • ft = fraction of intelligence-bearing planets where technology develops for communication • Lciv = average lifetime of a civilization • Lgal = lifetime of Galaxy 6

7. Intelligence Fraction • What fraction of life-bearing planets produce intelligent life? • Remember definition of intelligence: capable of developing technology sufficient for interstellar communication (i.e. radio) • Earth suggests this fraction is about 100% • But … is this right? 7

8. Intelligence & Dinosaurs • Dinosaurs were not intelligent • But they were still dominant life on Earth … for about 200 Myr !! • They were only wiped out by a major extinction (K-T asteroid impact) • This allowed mammals and (eventually) “intelligent” life to dominate • We would not survive that impact either!! • So, dinosaurs died from bad luck, not stupidity (?) 8

9. Intelligence & Dinosaurs • So, dinosaurs died from bad luck, not stupidity (?) • No real evidence that intelligence is fundamentally “better” than other traits • If dinos around today, would they “win”? 9

10. Intelligence Fraction • This is an endless debate • But .. does the outcome REALLY matter? • Even if intelligence is NOT inevitable, it happened once out of two tries (us + dinosaurs) • Would estimate fraction at ½ or 1/3 (Permian extinction ended another “try”?) • In short: 1 out of a few, so this is not a huge factor; it is close to 1 (not 0.01, not 0.000001) 10

11. Technology Fraction • Again, Earth suggests this fraction is 1 • But, what about intelligent life without technology? • Idyllic scene 11

12. Human Population • But … technology clearly provides an advantage in numerical increase • Human population versus time • Updated as of 11/30/12 – Total human population is 7.1 billion 12

13. Technology & Malthus • In early 1800s, Thomas Malthus predicted that the world was rapidly approaching its maximum sustainable population • Why did it continue to grow? Technology – we now get much more production per acre out of agriculture (pesticides, irrigation, fertilizer) • Corn yield versus year 13

14. Technology & Health • Technology (i.e. medicine) also increases population via survival rates 14

15. Technology & Health • Technology (i.e. medicine) also increases population via survival rates – As of 11/30/12 – Life expectancy in the US is 78.2 years. 15

16. Technology & Evolution • So … evolutionary “success” is seen as improved reproductive capability • If have intelligence, sooner or later drive to survive results in some technology development • Even chimps do it! 16

17. Technology & Evolution • “Technological” life reproduces/survives preferentially • Eventually leads to dominant life being technological • The more technology, the more likely it is to survive (even if it does not directly kill off the others – contrary to all of human history!) • Theory of Neanderthal extinction: Peaceful non-technological Neanderthals were victims of Cro-Magnon genocide • So … technology fraction is about 1 17

18. Technology & Evolution • So … technology fraction is about 1 • But … does everyone with the technology to communicate WANT to communicate? 18

19. Civilization Lifetime • Why is this critical? • Do the math so far … • Nciv = N* fP ne fl fi ft Lciv / Lgal • = 3x1011 * 0.005 * 1 * 1 * 1 * 1 * Lciv / 1.3x1010 yrs • = 0.1 * Lciv • = Lciv / 10 • Carl Sagan estimated this as 10 Lciv (in 1974) • Pessimistic case would be Lciv / 10 billion (a BIG difference) 19

20. Civilization Lifetime • So … Nciv depends an awful lot on Lciv • Take L = 90 yrs (lifetime for which Earth has ad a civilization capable of communicating via radio, so far …) • Then expect N = 9civilizations in the Galaxy right now! • On the other hand, could be as low as 90/1010  0 • Is L larger than this, though? 20

21. What Limits Civilization Survival? • Malthus says we are limited by food/resources (i.e. starvation) • Malthus thought we would all die of starvation by 1900 • But … history shows that technology advances can dramatically improve our ability to generate food from limited natural resources • Mmmm …. 21

22. What Limits Civilization Survival? • On the other hand, read Jared Diamond’s “Collapse” • Many civilizations have in fact collapsed here on Earth • This is often at the PEAK of their technological advancement (i.e. the ancient Maya) • Why? 22

23. Collapse of Civilization • Why? • More tech, leads to more people • More people leads to more demand • Exponential population growth means technology needs to KEEP evolving (faster and faster!) • If it fails to keep up  COLLAPSE! • So, L could be long or could be short 23

24. Natural Extinction? • Asteroid impact, implies L ~108 yrs • Can technology avoid even that? • Gamma-ray bursts can’t be avoided • One heated atmosphere already (!) March 3, 2003 • But … timescale is also >108 yrs • (If not, why not previous extinctions … or were there?) 24

25. Self-Limiting Lifetime? • For the last 50 years, humanity has had the ability to destroy itself completely • MAD = Mutually Assured Destruction • For last 20 years, fingers have been off the triggers • But … still a worry • Could imply a short L (~100 years??) 25

26. Number of Civilizations • So … estimates range from L = 80 years to L = ??? (1000 years? 100,000 years? Longer? Mass extinctions seem to happen every 50-100 million years) • A “realistic” estimate is Nciv = Lciv / 10 • So … anywhere from 8 civilizations to 1000 to millions (!) • A pessimistic estimate is Lciv / 10 billion – which gives ZERO even for long lifetimes (limited by mass extinction timescale) 26

27. Distance between Civilizations • Draw on Galaxy on board • Mean distance estimate: • Galaxy “Habitable Zone” is a circle-ish shape, about 10 kpc in radius • Area around each civilization averages R2/N • So … radius around each civilization is about R/N • This corresponds to anywhere from 3.3 kpc (for 9 civilizations) to 10 pc (for 1 million civilizations) 27

28. Distance & Communication • We are not currently in regular radio contact with extra-terrestrial civilizations • Why not? Would we expect to be? • Well … timescale for communication could be tough • 1 pc = about 3 light years • For “nominal” 9 civilizations, closest is about 3300 pc away = 10000 light years • If they sent us a message at the time of the pyramids … it is only halfway here!! 28

29. Distance & Communication • Even for an “optimistic” case, average distance is 10 pc away • This is 30 light years • Play the “Contact” game: • We start broadcasts around 1936 • Message arrives there in 1966 • They send a return message to us within 1 year • Would only have reached us in 1997 • So … just barely possible in the most optimistic scenario 29

31. Summary • Drake Equation guides estimate of number of civilizations in the Galaxy right now • Depends on many unknowns • One of the most important is lifetime of civilizations • We can estimate that this is at least 80 (100) years • Could be as long as 100 million years (??), but depends on ecological collapse, natural extinction, or violent self-destruction • “Realistic” estimates of number of civilizations ranges from about 8 to as many as 1 million • Pessimistic estimates would say “zero” • Even for optimistic estimates, we would just BARELY be at the threshold of being able to communicate with other civilizations 31

32. FERMI’S CONJECTURE IF WE ASSUME: • LIFE WILL FORM WHERE IT CAN FORM. • LIFE WILL NOT ARBITRARILLY EXTERMINATE ITSELF. • TECHNOLOGY WILL GROW AS IT HAS ON EARTH. • WE WILL DEVELOP THE ABILITY TO SPACE TRAVEL. THEN: • INTELLIGENT LIFE WILL HAVE FORMED BILLIONS OF YEARS AGO MANY PLACES IN OUR GALAXY. • THEY WILL DETERMINE THAT THEIR CIVILIZATION IS DOOMED AT SOME POINT. • THEY WILL COLONIZE THE UNIVERSE. • THEY WILL HAVE FOUND THE EARTH AS A HABITABLE PLANET. SO: WHERE ARE THEY?