The Fermi Paradox & The Great Filters #1 - The basics
The Fermi Paradox is one of the most interesting questions in current science. Named after Enrico Fermi, a well known Italian physicist and it essentially is just a simple question – Where is everyone in our universe?
What is the Fermi Paradox?
As already stated the Fermi Paradox can be simplified into a very simple question – Where is everyone in our universe? - but that question alone doesn’t really convey what exactly is the Fermi Paradox really saying. The real question is this: Based on the facts that our universe is relatively old, the amounts of planets are almost inconceivable and the way probability and statistics work – why haven’t we found any concrete evidence that alien civilizations exist.
Over time there have been many attempts to explain the Fermi Paradox – ranging from the simple possibility that life is much rarer than we expect it to be, going through possible reasons why alien life forms might choose not to be found up to the unlikely possibility that we are actually the only intelligent species existing in our universe. And within this series, we will take a deeper look at one of these possible explanations – the Great Filter theory.
What is the Great Filters theory?
The Great Filters theory essentially states that the process of becoming an advanced technological civilization is much harder than we presume it to be, as there are barriers along the way from a “simple” self-replicating molecule to a civilization that would have an impact on a scale we would be able to detect. And this theory was first proposed in an essay “The Great Filter – Are We Almost Past It?” by Robin Hanson and it also got its name from the same essay.
In this series, we will take a look at several theoretical Filters and try to designate a plausible probability for them. I want to heavily stress that I don’t actually know the values of these probabilities. They will all be just guesses and I might be way too optimistic or way too pessimistic with any of them. That’s why I will also be including a simplified version where each of the Filters will be assigned with either a 1 in 10, 1 in 1 000 and 1 in 1 000 000 million probability based on how effective I think the Filter might be.
The filters we will take a look at are these:
The right star system
Where we will look at the possible barriers star systems themselves might pose.The creation of life
Where we will look at the possible barriers life itself might be facing.The creation of intelligence
Where we will look at the possible barriers that might prevent intelligence from emerging.The creation of technological civilization
Where we will look at the possible barriers that might stop intelligent species from creating complex technologyThe expansion
Where we will look at the possible barriers technological civilization might face when trying to expand into space and the universeOutside threats
Where we will look at the possible barriers coming from sources outside of the planet
There is one more thing I need to address in this first introductory post to this series. We will be focusing only on carbon based life forms.
Why is carbon important?
There are two main reasons why we will focus only on carbon based life forms. One of them is fairly scientific and the other one isn’t that much and we will address the less scientific one first
Our knowledge is limited to carbon based life forms
Yes, this a very Earth-centric point of view, but what you need to remember that we base our scientific theories on what we already know and expand on that. And because we don’t know of any life forms that don’t use carbon as their base element we are going to focus on carbon based ones.
Luckily the second reason is much more scientific
Carbon has several very unique properties making it very likely to be used as the base of life even in alien environments
Thanks to the facts that carbon can create up to four bonds, these bonds can be very versatile (thus allowing the pairing with a multitude of different elements) and the fact that the C-C bond is one of the most stable bonds which exist all contribute to the fact that carbon is just the ideal element to create very long complex molecules needed for the creation of life.
Just to quickly mention the other proposed elements on which life can be based:
Silicon – Carbons bigger brother, but he has a few disadvantages. The Si-Si bond is much less stable, resulting in a lot more crystallization instead of long complex molecules. Also, its compounds are far less soluble and often solid at “normal” temperatures resulting in chemical reactions happening more slowly.
So we can propose that silicon based life would probably need to exist at much higher temperatures, otherwise, its development and potential “lifestyle” would be just too slow for a creation of life or technological civilizations. And the most likely source of warmth is a star that provides this heat. But if you get more heat you also get more radiation making the development and evolution of life that much harder.
Boron - A much less often used element in theories about potential building blocks of life, but still an intriguing one. It has pretty much the opposite problem of silicon – it strongly reacts with most of the common elements we consider vital for life. Also instead of water, the liquid needed for these life forms would likely be ammonia and for that to be a liquid, the temperatures need to be much lower.
So if we would consider boron based life, it would likely exist on a planet with temperatures much lower than what we are used to. Lower temperatures mean less energy and less energy translates in a much slower lifestyle and evolution, making boron based life either likely to stay only as very simple life forms or life forms that don’t have the spare energy to develop intelligence because every single bit of energy is used for survival.
In the next episode we will take a look at what barriers may the star system itself pose to the creation of live and advanced technological civilizations.
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Could someone please explain how this works? I take it that Kralizec upvoted it. But why is there no indication about who wrote it? Also, by the way, I tried to create a Discord account, and it claims that my email is invalid. Hopefully, their support will straighten that out. I did get their autoreply ;)
I'm looking forward to more on this. One of my favorite SF novels is The Killing Star by Charles R. Pellegrino and George Zebrowski. Also very relevant is The Three-Body Problem trilogy by Liu Cixin.
My favorite sci-fi universe is the Dune from F. Herbert :) check it out if you haven't yet
Thanks, I know and love Dune :) I'm not sure what I'd call my favorite SF universe. There are just too many. Maybe Hannu Rajaniemi's Quantum Thief trilogy. Because it's based on some wild posthuman stuff from 19th century Russian philosophers.
https://en.wikipedia.org/wiki/Nikolai_Fyodorovich_Fyodorov
https://en.wikipedia.org/wiki/Sobornost
This post received a 4.4% upvote from @randowhale thanks to @kralizec! For more information, click here!
Looking forward to reading. This is one of my favorite subjects to contemplate. I remember the arsenic life form mistake that happened a few years ago.. It was found not to be true, though the organism thrived on arsenic which kills us.. so basically I'm saying there might be other elements yet. Maybe some that we don't even know about. So many variables in the Fermi paradox. And I lean towards the self destruction answer. Based on where the Earth is heading and how our history looks
I think they actually found a life form that had one of the elements in DNA replaced with arsenic. I think it was phosphorus that was replaced in this life form.
They couldnt find any arsenic in its DNA. I looked up a few articles before I posted this! But there is something strange about it since it thrives off something fatal to carbon based lifeforms. But regardless, look forward to going through the Fermi paradox and learning some new things!
This post has received a 12.25 % upvote from @booster thanks to: @kralizec.
You are now Biochemist? :D
My opinion is that we are alone in our galaxy, because there must be many coincidences for the emergence of life. Maybe there is some planets with life, but not intelligent life like we are.
Look at Venus. It is a twin of Earth, but it is still totally uninhabitable, because some accidents what is not happened on Earth.
Great post BTW, cant wait for another episode ;)
As our technology has progressed we have become much more inward looking..by that I mean that there is cable moreso than broadcast...what broadcast there is is short range, (cell phones)...the long range stuff is fiber optic.
It might make it harder for someone a zillion lightyears away to detect...and vice versa if that happens to be the natural upgrade path of technology.
For another thing...virtual reality.
Why look OUT when we can look IN...There is absolutely NO LIMIT to what can be done in VR...
If THIS is the upgrade path of advancing technology...maybe they are out there all right..but they have no plans to go anywhere, and are undetectable at a distance.
The issue is that even if a civilization goes almost fully into a virtual world, it is likely it will still be growing and thus needing more and more resources over time, thus expanding further.
why do you say that?
we are currently making less resources go much further than ever before.
technology keeps doing more with less.
the only thing we consistently need more of is energy.
A dyson sphere would provide a BUNCH of energy..
...and mask the emissions of those who live in it.
Ever wonder about all of those brown dwarves?
Brown dwarves are the most common star there is...
A dyson sphere would still be most likely detectable. Maybe not with our current technology, but with future technology for sure.
what about brown dwarves?
since we don't have very much observational information about them, I do not really have an educated opinion of them.