What you're describing is a a Dyson shell, which is a sci-fantasy brainbug based on a complete misinterpretation of Dyson's original concept. Dyson's "sphere" is really more of a swarm of habitats and power-collecting satellites or statites. Spotting a Dyson swarm ought to be easy. Simply look for a star that's surrounded by a uniform shell of warm metallic "dust" which is too old to be naturally surrounded by a uniform shell of warm metallic dust.Modax wrote:If they've been swamping the galaxy with high power radio signals for millions of years (a big assumption, but not so unreasonable, they certainly aren't going to use gravity waves or 'psionics') then SETI should be due to find their signals...any time now. There's only so much spectrum to search, especially if the ETI are using the relatively quiet 'hydrogen line'
Or if they're into building dyson spheres, we should be able to detect those on infrared. (unless they are hyper-efficient, using multiple layers operating at ever lower temperatures and using the waste heat of the previous layer for power w/ 'sufficiently advanced technology' then maybe that cloud of 'dark matter' around the milky way is actually all dyson spheres...no idea if this is actually remotely plausible.)
Natural selection would tend to produce a being whose principle foci are immediate survival and reproductive success. Since you can only cram so much into a given volume of brain tissue, the mind that would tend to emerge isBut back on the subject of Fermi paradox, the basic point is that while, based on the age of the galaxy, the likelihood of us being first is very, very small, it seems *less improbable* than the case that, every time Natural Selection produces a mind, no matter when or where in the universe it happens, no matter what the selection pressure in the environment is, it produces essentially the same antisocial, short-sighted, superstitious mind; over, and over, and over.
A) Anti-social outside its immediate kin and social group: Outside social/kin groups are competitors for resources that might go to one's own survival and genetic supremacy. Even the most sophisticated eusocial life-forms work in complete harmony to wipe out the competition.
B) Superstitious: Because having a threat-awareness system that reports a lot of false-positives will result in a being that stays alive longer than one whose threat-awareness system is so good at rejecting false-positives it kicks out some actual positives as well. In this case, throwing out an actual positive will tend to result in the positive attempting to eat you. If it succeeds, then you've just won a Darwin Award. If it fails, you'll be a lot more careful next time.
C) Short-sighted: Because having the ability to internalize detailed future plans lasting longer than a fraction of the local year doesn't really buy you anything. Circumstances beyond your control will guarantee that all the fine-grained details will be different from what you were expecting. They will also make it uncertain whether or not you will actually be alive to carry out your future plans. Ergo, it pays to be short-sighted.
Because a sufficiently advanced civilization will realize that staying on the home planet until the home star leaves main sequence is just asking for trouble. Once you have one colony, population growth will eventually dictate that two would be better. And then four, and so on. Unless they manage to engineer out that pesky "expand and grow" imperative from their instincts. In which case, they might be happy to mass-upload themselves in the most environmentally-sensitive fashion possible . . . but, it only takes one successful expansionist species to paper the galaxy in their habitats.Guardsman Bass wrote:You're assuming that a civilization would even want to build a Dyson Swarm, spam interstellar probes, or go beyond a handful of star systems at best. Why?
We could invoke the Dead Hand/Tentacle/Mouth of the Market. Assuming the Dead Hand of the Market didn't kill them all the first time, eventually a species' demands for energy and resources to drive economic output will push them to want to build swarms of statites."Species survival" is the usual answer, but it's all speculative on how an alien civilization might evaluate such things. With regards to the one space-faring civilization that we know of, "long-term species survival" is an anemic driving force.
Their average brain size was growing during that time. The typical Erectus alive ~100,000 years ago had a bigger brain and better tools than the ones alive ~1,000,000 years ago. Some of the last populations of Neanderthal appeared to have developed a sophisticated culture of tools entirely independent of those who'd been acculturated to Sapiens. Our brains have continued to accumulate genetic changes since that time.Until 12,000 years ago, their social organization was virtually unchanged for hundreds of thousands to millions of years. Their technological advancement was very, very slow over the same period. It's not at all unlikely that other intelligent alien species may end up in a similar situation, except that they don't break out of it towards increasingly advanced technological civilization.
We went from "bipedal ape" (evidence suggests that the common ancestor to humans and currently-extant great apes was a biped) to "force of nature" in a mere seven million years. A mere 65 million since a wayward asteroid wiped out every dinosaur that wasn't small, feathery, and flew well. Compared to timespans of a couple of billion years, that is nothing.
The average brain size of dinosaurs slowly increased with time, though. And dinosaurs of the Mesozoic and Paleozoic eras were very small-brained. The best of them, Troodon, was about as brainy as an ostrich. The best dinosaurs (pronounced "birds") of the Cenozoic are just as brainy as the great apes, albeit a bit on the small side. Quite conceivably, without the K-T event wiping them all out, dinosaur species would've evolved with increasingly large and complex brains (just as they have now.) They might've done so faster and gotten further (since there's only so much you can pack into the head of a raven or a parrot, compared to a troodontid.) They were just starting to overlap with modern birds by the end of the Cretaceous. It is not inconceivable that this trend would've continued.Look at the length of the Mesozoic and Paleozoic Eras, though. That's a considerable amount of time for a species to develop sentience and even technological civilization that might survive a mass extinction, yet so far as we can tell, it did not occur.
