Lex Fridman Podcast - #262 – Garry Nolan: UFOs and Aliens
Episode Date: February 7, 2022Garry Nolan is a professor at Stanford University School of Medicine. His research is in microbiology, immunology, bio-computation, and analysis of UFO artifacts, materials, and reports of UFO encount...ers. Please support this podcast by checking out our sponsors: - Athletic Greens: https://athleticgreens.com/lex and use code LEX to get 1 month of fish oil - InsideTracker: https://insidetracker.com/lex and use code Lex25 to get 25% off - Blinkist: https://blinkist.com/lex and use code LEX to get 25% off premium - ExpressVPN: https://expressvpn.com/lexpod and use code LexPod to get 3 months free - Eight Sleep: https://www.eightsleep.com/lex and use code LEX to get special savings EPISODE LINKS: Garry's Twitter: https://twitter.com/GarryPNolan Nolan Lab's Website: https://web.stanford.edu/group/nolan/ PODCAST INFO: Podcast website: https://lexfridman.com/podcast Apple Podcasts: https://apple.co/2lwqZIr Spotify: https://spoti.fi/2nEwCF8 RSS: https://lexfridman.com/feed/podcast/ YouTube Full Episodes: https://youtube.com/lexfridman YouTube Clips: https://youtube.com/lexclips SUPPORT & CONNECT: - Check out the sponsors above, it's the best way to support this podcast - Support on Patreon: https://www.patreon.com/lexfridman - Twitter: https://twitter.com/lexfridman - Instagram: https://www.instagram.com/lexfridman - LinkedIn: https://www.linkedin.com/in/lexfridman - Facebook: https://www.facebook.com/lexfridman - Medium: https://medium.com/@lexfridman OUTLINE: Here's the timestamps for the episode. On some podcast players you should be able to click the timestamp to jump to that time. (00:00) - Introduction (07:41) - Biology (13:45) - Alien civilizations (17:49) - UFO encounters (54:50) - Atacama skeleton (1:02:07) - UFO materials (1:13:29) - Jacques Vallee (1:17:37) - UFO data (1:28:43) - Alien hardware in US possession (1:33:20) - Bob Lazar (1:36:15) - Avi Loeb and Oumuamua (1:40:17) - Advice for young people (1:47:05) - Meaning of life
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The following is a conversation with Gary Nolan, professor at Stanford University School of Medicine,
respected and very well published in fields of microbiology and pathology.
But he also is known for analyzing UFO artifacts and materials,
and for taking a rigorous scientific approach to reports of UFO sightings and experiences.
And now a quick few second mention of each sponsor.
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This is the Lex Friedman podcast and here is my conversation with Gary Nolan.
You are a professor of Stanford studying the biology of the human organism at the level
of individual cells.
So let me ask first the big ridiculous philosophical question, what is the most beautiful or fascinating
aspect of human biology at the level of the cell to you?
The micro machines and the nano machines that proteins make and become. That to me is the most interesting.
The fact that you have this, basically, dynamic computer within every cell that's constantly
processing its environment, and at the heart of it is DNA, which is a dynamic machine,
a dynamic computation process.
People think of the DNA as a linear code. It's
codes within codes within codes, and it is actually the epigenetic state that's doing this
amazing processing. I mean, if you ever wanted to believe in God, just look inside the cell.
So DNA is both information and computer. Exactly. How did that computer come about? A big continuing on the philosophical
question, is this both scientific and philosophical? How did life originate on earth, do you
think? How did this at every level? So the very first step and the fascinating complex
computer that is DNA, that is multicellular organism and then maybe the fascinating complex computer that is the human mind.
Well, I think you have to take just one more step back to the complex computer that is the
universe, right? All of the so-called particles or the waves that people think the universe is
made of and appears to me at least to be a computational process. And embedded in that is biology, right?
So all the atoms of a protein, et cetera,
sit in that computational matrix.
From my point of view, it's computing something.
It's computing towards something.
It was created in some ways if you want to believe in God.
And I don't know that I do, but if you want to believe in something,
the universe was created or at least enabled to allow for life to form.
And so the DNA, if you ask where does DNA come from, and you can go all the way back to richer
dockens and the selfish gene hypotheses, the way I look at DNA though is it is not a moment in time.
It assumes the context of the body and the environment in which it's going to live.
And so, if you want to ask a question of where and how does information get stored, DNA,
although it's only 3 billion base pairs long, contains more information than I think the entire computational memory resources of our current technology.
Because who and what you are is both what you were as an egg all the way through to the day you die.
And it embodies all the different cell types in organs in your body.
And so it's a computational reservoir of information and expectation that you
will become. So actually, I would sort of turn it around a different way and say, if
you wanted to create the best memory storage system possible, you could reverse engineer
what a human is and create a DNA memory system that is not
just the linear version, but is also everything that it could become.
When we're talking about DNA, we're talking about Earth and the environment creating DNA.
So, you're talking about trying to come up with an optimal computer for this particular
environment.
Right. So, if you reverse engineer that computer, what do you mean by considering all the possible
things it could become?
So, who you are today, right?
So, 3 billion bits of information does not explain Lex Friedman.
Yeah.
Doesn't explain me, right?
But the DNA embodies the expectation of the environment in which you
will live and grow and become. So all the information that is you, right, is actually not only
embedded in the DNA, but it's embedded in the context of the world in which you grow
into and develop, right? But so all that information though is
packed in the expectation of what the DNA expects to see.
Interesting. So like some of the information, is that accurate to say stored outside the
body? Exactly. Yeah. The information is stored outside because there's a context of expectation. Isn't that interesting? Yes, fascinating.
I mean, to linger on this point, if we were to run Earth over again a million times, how
many different versions of this type of computer would we get?
I think it would be different each time.
I mean, if you assume there's no such thing as fate, right? And it's not all pre-programmed, you know,
and that there is some sort of, let's say, variation
or randomness at the beginning.
You would get as many different versions of life
as you could imagine.
And I don't think it would all be,
unless there's something built into the,
you know, into the substrate of the universe.
It wouldn't always be left-handed proteins, right?
But I wonder what the flap of a butterfly wing what effects it has because it's possible
that the system is really good at finding the efficient answer, and maybe the efficient
answer is there's only a small finite set of them for this particular environment.
Exactly. Exactly. That's the kind of in a way the anthropomorphic universe of the
multiverse expectations, right? That there's probably a zillion other kinds of universes out there
if you believe in multiverse theory. We only live in the ones where the rules are such that life-like hours can exist.
So using that logic,
how many alien civilizations do you think are out there?
There's like trillions of environments,
AKA planets,
or maybe you can think even bigger than planets.
How many lifelike organisms do you think are out there thriving? And maybe
how many do you think are long gone? But were ones here?
I think, well, innumerable, I think in terms of the most of zero, much greater than zero.
I mean, I would just be surprised what a waste, right, of all that space just for us,
if we're never going to get there. That would be my first
way to think about it. But second, I mean,
I remember when I was about seven or eight years old and I would love if any of your listeners could find
this national geographic. I remember opening
the page of the National DeG. I was about, again,
seven to ten years old. And it was sort of a current picture of the universe. It was
a bomb probably in 1968, 1969. I remember looking at it and thinking, what kinds of empires
have risen and fallen across that space
that we'll never know about.
And isn't that sad that we know nothing about something so grand?
And so I've always been a reader of science fiction
because I like the creative ideas of what people come up with.
And I especially like science fiction writers that base it in good science,
but base it also in evolution, that if you evolve a civilization from something
life-like, right, some sort of biology,
its assumptions about the universe will come from
the environment in which it grew up.
So, for instance, Larry Niven is a great writer, and he imagines different kinds of civilizations.
In some cases, what happens if intelligence evolved from a herd animal?
Right. Would you lead from behind? Right. Would you be, you know, in his case, one of them were the so-called puppeteers.
And to them, the moral imperative is cowardice.
You put other people forward to run the risk for you.
Right. And so he writes entire books around that premise.
There's another guy, a Brynn, David Brynnnn is his name and he writes the, uh, so-called,
uplift universe books. And in those, he takes different
intelligences, each from a different evolutionary background. And then he posits a civilization
based around where and what they came from.
And so to me, I mean, that's just fun,
but I mean, back to your original question,
is how many are there, I think,
as many stars as we can see.
Now, how many are currently there?
I don't know, I mean, that's the whole question
of how long can a civilization last before it runs out of steam? And you, for instance, does it just
get bored? Or does it transcend to something else? Or does it say, I've seen enough and
I'm done? What is running out of steam look like it could be destroyed itself would get
bored? You know, it said, or we've done everything we can, and they just decide to stop.
I don't know.
I just don't know.
It's the Elon Musk worry that we stop reproducing,
or we slow down the reproduction rate
to where the population can go to zero.
It can go to zero, and we can't, and we collapse.
I mean, so the only way to get around that
is perhaps create enough machines with AI to take care of us.
Well, it could possibly go wrong.
You've talked to people that told stories of UFO encounters.
What is the most fascinating to you about the stories of these UFO encounters that you've
heard that people have told you?
The similarity of them,
the uniformity of the stories.
Now, I just wanna say up front,
a lot of people think that when I speculate,
I believe something, that's not true, right?
Speculation is just creativity.
Speculation is the beginning of hypothesis.
None of what I hear in terms of the anecdotes do I necessarily believe are they true, but
I still find them fascinating to listen to it because at some level, they're still raw
data.
And you have to listen.
And once you start to hear the same story again and again, then you have
to say, well, there might be something to it. I mean, maybe it's some kind of a young
Ian background in the human mind and human consciousness that creates these stories
again and again, it's coming out of the DNA, it's coming out of that pre-programmed something.
And young talked quite a bit about this kind of thing, the collective unconscious.
But actually one of the most interesting ones I find is this constant
message
that you're not taking care of your world and this came long before
climate change, it came long before
many kinds of you know, let's say, current day
memes around, you know, taking care of our planet, pollution, et cetera. And so, you know,
for instance, perhaps the best example of this, the one that I find the most fascinating,
is a story out of Zimbabwe, 50 or 60 children one afternoon in Zimbabwe. It was a well-educated
group of white and black children who had lunchtime in the playground saw craft. And they saw
little men. And they all ran into the teachers and they told the same story and they drew the same pictures and
the message several of them got was
You were not taking care of your planet
And it got you know, there's actually a movie coming out on this episode and
30 years later now the people who are there the children who who have now grown up, say, it happened to us.
Now, did it happen? Was it some sort of hallucination or was it an imposed hallucination by something?
Was it material? I don't know. But these kids were seven to ten years old. You see them on video.
Seven to ten year olds can't lie like that.
And so, you know, whether it's real or not, I don't know,
but I find that fascinating data.
And again, it's these unconnected stories
of individuals with the same story.
That is worthy of further inquiry.
Yeah, so here we are humans with limited cognitive capacities, trying to make sense of the
world, trying to understand what is real and not. We have this DNA that somehow in complex ways
is interacting with the environment. And then we get these novel ideas that come from the populace.
And then they make us wonder about what it all means.
And so how to interpret it.
If you think from an alien perspective,
how would you communicate with other life-like organisms. You perhaps have to find in points on this interaction
between the DNA and its manifestations in terms of the human mind and how it interacts with the
environment. So it gets some kind of, all right, what is this DNA? What is this environment? I have to
get in somehow to like interact with it to get to perturb the system to where these little ants human like ants get like excited and figures and see stuff out. Yeah, and then and then somehow steer them.
First of all for investigative purposes understand like
for investigative purposes, understand like oftentimes to understand a system you have to perturb it. Exactly. Yeah. Like poke at it. You get excited or not. And then the, the,
the other ways you want to. If you worry about them, you can steer in one direction or
another. And this kind of idea that we're not taking care of our world. That's interesting.
I mean, that's comforting. That's hopeful because
that means the greater intelligence, which is what I would hope we want to take care of
us. Like we want to take care of the gorillas in the national parks in Africa. Yeah.
Right. But we don't want to take care of cockroaches. So there's a line we draw. So you have
to hope that right now we're a bunch of angry monkeys. And
you know, maybe whatever these intelligences are are also keeping an eye on us. You know,
that you don't want a bunch of, you know, you don't want the angry monkey troop stomping
around the local galactic arm. Do you think these folks are telling the truth? Do you
think they saw what they say they saw? I think they saw what they say they saw?
I think they saw what they said they saw,
but I also think they saw what they were showing.
I mean, if you go back to the whole notion of,
okay, how long has this been around?
It didn't just start showing up in 1947.
Right, there are stories going back,
into the 1800s of people who saw things in their farm fields
in the US.
It's in local newspapers from the 1800s.
It's fascinating.
But if you can go even further back, to your point of how would you, as a higher intelligence,
represent yourself to a lesser intelligence?
Well, let's go back to pre-civilization.
Maybe you show yourself as the spirits and the forest, and you give messages through that.
Once you get a little bit more civilized, then you show yourself as the gods.
And then you're a god. Well, we don't believe in God anymore necessarily, not everybody does. So what do we believe in? We believe in technology. So
you show yourself as a form of technology, right? But the common thread is you're not alone.
And there's something else here with you. And there's something that's, as you said, watching
you. And at least watching over your shoulder.
But I think that like any good parent,
you don't tell your student everything.
You make them learn and learning requires mistakes
because if you tell them everything, then they get lazy.
You've looked at the brains of
or information coming from the brain or some of the people that have had earphone counters.
What's common about the brain of people who encounter earphones?
So the study started with a group of, let's say, a cohort of individuals that were brought
to me and their MRIs to ask about the damage that had been seen in these individuals.
It turns out that the majority of those patients ended up being as far as we can tell Havana
syndrome.
And so for me at least that part of the story ends in terms of the injury.
It's likely almost all Havana syndrome.
That's somebody else's problem now.
That's not my problem.
But when we were looking at the brains of these individuals, we noticed something right in the
center of the basal ganglia in many of these individuals that at first we thought was damage.
It was basically an enriched patch of MRI, dense neurons that we thought was damaged, but then it was showing
up in everybody and then we looked and said, oh, it's actually not.
The other readings on these MRIs show that actually that's living tissue.
That's actually the head of the caught it in the pitamen.
And at the time, and I remember even asking a good friend of mine at Stanford who is a psychiatrist,
what does the basal ganglia do?
Is it all the basal ganglia is just about movement and nerve and motor control?
I said, well, that's odd because these other papers that we were reading at the time
started to suggest that it was involved with higher intelligence and is actually downstream of the executive function
and involved with intuition and planning.
And then if you think about it,
if you're gonna have motor control
which is centralized in one place,
motor control requires knowledge of the environment.
You know, you don't wanna move something and hit the table.
Or if you're walking across the room, you want to be aware and cognizant of what you might bump into. So obviously, all of that planning is requires access to all the senses.
It requires access to your desires and memory, knowledge of where and
what you want and desire to walk nearby. Like, I use the example of your at a party you
want to avoid that person, you like that person, the waiter is about to drop something,
all without thinking you maneuver. So that actually, all that planning is done in the bezel ganglia. And it's actually now called the brain within the brain.
It's a goal processing system, subservient to executive function.
So what we think we found there was not something which allows people to talk to UFOs.
I mean, I think the UFO community took it a step too far. What I think we
found was a form of higher functioning and processing. So what we then looked at, and this
was the most fascinating part of it, we looked then at individuals in the families,
or those, let's say the index case individuals, and we found that it was actually in families.
And more so, this is the most fascinating part. We've probably looked now at about 200 just random
cases that you can download off of databases online. You don't see this higher connectivity.
You only find it in what Green would have called or has called higher
functioning individuals. People who are
and he he called them savants. I don't have the
means to we haven't done the testing but it
turns out my family has it right. We we found it in
me my brother my sister my mother we found it as me, my brother, my sister, my mother.
We found it as well. In other individuals, husband and wife pairs.
So statistically, if you had a group of 20 individuals and you found two husband wife pairs,
both of whom had it. And yet, it's only found at about, we think, one in two hundred,
one us three hundred individuals. The fact that two individuals came together,
two sets of individuals came together,
both whom had it, implied either a restricted breeding group
or attraction.
The reason why it seems to be in, let's say,
so-called experiencers or people who claim,
if intuition is the ability to see something
that other people don't, I don't mean that in a paranormal sense, but being able to see
something just in front of you that other people might just dismiss, well, maybe that's
a function of a higher kind of intelligence to say, well, I'm not looking at an artifact.
I'm not looking at something that I should just ignore.
I'm seeing something and I recognize it for not what it is,
but that it is something different
than it is normally found in my environment.
Yeah, you know, I have a little bit of that.
I seem to see the magic in a lot of moments.
I have a deep, it's obviously, not obviously,
but it seems to be chemical in nature
that I'm just excited about life.
I love life.
I love stupid things.
It feels like I'm high a lot.
On like mushrooms or something like that,
where you'd really appreciate that.
You're able to detect something
about the environment that maybe others don't,
I don't know, but like I seem to be over the top
grateful to be alive on a lot of stupid reasons.
And that's in there somewhere.
I mean, it's kind of interesting because
it really is true that our brains, the way we're
brought up, but also the genetics enables us to see certain slices of the world.
Some people are probably more receptive to anomalous information. An almost information they see the they see the magic the possibility in the novel thing
Right as opposed to kind of
Finding the pattern of the common of the regular some people are more wait a minute
This is kind of weird. I mean a lot of those people who probably become scientists too like huh
Like there was this pattern happening over and over and over and then something weird
just happened. And then you get excited by that weirdness and start to pull the string
and discover what is at the core of that weirdness. Like perhaps is that, you know, maybe
by way of question, how does the human perception system deal with anomalous information, do you think?
Well, it first tries to classify it and get it out of the way. If it's not food, if it's not sex,
right, if it's not in the way of my desires, or if it isn't the way of my desires, then you focus on it. And so the, I think the question is how much spare processing power,
how much CPU cycles do we spend on things that are not those core desires?
What is the most kind of memorable, powerful,
you phone counter report you've ever heard.
Just to you person on a personal level,
like, is something that was really powerful.
Well, I mentioned this in Bobway One.
That's particularly interesting.
And one that actually most people don't know about,
but family driving down the highway,
two little girls in the back, open glass
topped car, and the little girls see a craft right over their car. This is in the
middle of the day on a busy highway. The mother sees it. Nobody can, they look
around, nobody else seems to see it.
So the girls take out their camera, take a picture of it.
And then they get home.
They look at the picture.
There's no craft, but there's a little object
about 30 feet above their car or so.
Probably about three feet across across kind of star-shaped
It's not the craft
But it's something else. There's obviously there was something there and so what were they seeing were they seeing a projection
where they seeing and why were only they seeing it?
And the photograph was capturing something very different than they were seeing their stolen object
What can you give a little bit of context?
Is this from modern day?
It's modern day.
Oh, yeah, they had a camera.
I mean, they had a cell phone camera.
And this was like a four or five years ago.
Report provided.
By the way, where's like a central place
to provide reports?
Oh, there's a move on, but this isn't public.
I've seen the picture.
Oh, this is something you've directly interacted with.
Yeah. Yeah. I've seen the picture. Oh, this is something you've directly interacted with. Yeah. Yeah. I've seen the picture. So those moments like that, they captivate your
mind. Well, it's so different. It doesn't fall into the standard story at all, but it also,
but in another way, it's kind of a, it's a clear annunciation of this notion that when people see events, they don't all see the same thing.
Now, we've heard this about traffic accidents.
Different people will see the color of the car differently or the chain of events differently.
And this tells you that memory isn't anywhere near what we think it is.
But the issue around the so-called UFO reports is that the same people will see a very different thing,
almost as if whatever it is is projecting something into the mind rather than it being real.
Rather than it being a real manifestation, material in front of you, it's actually almost
some sort of an altered virtual reality that is imposed on you.
I mean, you know, I think the company meta and all the virtual reality companies would love to have
something like that. Right? Well, you don't have to actually wear something on your face.
Yes. To experience a virtual reality, what happens if you could just project it?
Well, that's the fundamental question from an alien perspective.
When you look at it or as we humans look at ants, how does its perception system operate?
So, not only how does this thing mind operate, how does the human mind operate, but how does
it, their perception system operate so that we can like stimulate the perception system properly to get them to think certain things and so you know
That's a really important question the humans think that
You know the only way to communicate isn't like 3d or 4d space time
There's physical objects or maybe you write things in a some kind of language, but there could be just
so much
more
richness in how you can communicate and so from an alien perspective or somebody has much greater technological
capabilities you have to figure out how do I use the skills I have to stimulate
the human the limited humans.
Right.
Well, I mean, let's take the ants exam, again, as an example,
let's say that you wanted to make ants practical.
You wanted to use them for something, right?
You wanted to use them as a form of biological robot.
Now, DARPA and other people have been trying to use insects
for, you know, turn them into biological robots.
But if you wanted to, you would have to interact
with their sense of smell, right?
They're a pheromone system that they use
to interact with each other.
So you would either create those molecules
to talk to them, to make them do,
not say talk to them as if they're intelligent,
but talk to them to manipulate them in ways that you want.
Or if you were advanced enough,
you would use some sort of electromagnetic
or other means to stimulate their neurons
in ways that would accomplish the same goal
as the pheromones, but by doing it
in a sort of a telefactoring way.
So let's say you wanted to telefactor with humans.
You would interact with them, and this is again, this is a technology
which you could imagine possible.
You could telefactor information into the sensory system of a human.
But then each human is a little bit different.
So either you know enough about them to tailor it to that individual, or you just basically take advantage of whatever the sensory net is that that individual has.
So if you happen to be good at sound, or you happen to be a very visually inclined individual, then maybe the sensory information that you get that's most effective in terms of transmitting information would come through that portal.
I think the aliens would need to figure out
the human's value physical consistency.
So we've discovered physics.
So we want our perception to make sense.
Maybe they don't, they haven't, you know,
that's not an obvious fact of perception
that you have to figure out what kind of things
are humans used to observing in this particular environment of Earth and how do we stimulate
the perception system in a way that's not anomalous or not to, doesn't cross that threshold
of just like, well, that's way too weird.
So that's not obvious that's way too weird. Right. So they have to, I mean, that's
not obvious that that should be important. You know, maybe you want to err on the side
of anomaly, like lean into the weirdness. So communication is complicated. Yeah. Well,
that's why I always I always find this issue of people talking about the so-called graze
as interesting because it is related to what you're saying.
They're different enough, but they're not so different as to be scary, right? They're
not venom-dripping fangs, right? They're different enough, but they all, it's also like they're
what you could imagine us becoming in some distant future. So is that a purposeful representation? I don't know. I mean, I don't believe in the
grays, for instance, but I believe that people think that they see it. So if
we're talking about a communication strategy that says, you know, we're like
you, but not the same as you, this might be a manifestation that you represent in terms
of a communication strategy.
What do you make of David's favorite sighting of the Tic Tac UFO and other pilots who have
seen these objects that seem to defy the laws of physics?
Well, I think you have to take them at their word. Are they
fascinating to you? Oh, absolutely. No, I know, I know a lot of these people, right? So I know
Lou Elizondo, Chris Mellon, the whole crowd. I've been, I saw the videos about three weeks or so
before they went public. I was at a bar with Lou overlooking the Pentagon in
Crystal City, and they showed him to me and my hair stood on end. And he said, he said,
this is coming out soon. And I know one of the guys on the inside who was the Naval Intelligence
who had interviewed all of these pilots again before this came out.
And it was hair raising to hear this, but also exciting that, you know, here's not
just people's testimony, these are credible individuals. And if you've seen
the 60-minute episode with some of the pilots, you know, they have no monetary
gain of anything, they've got negative gain from coming out.
But then you also have all of those simultaneous ship analysis from the USS Princeton and the
radar analysis, et cetera.
So, at the end of the day, it's just data.
It's not a conclusion.
I'd be perfectly happy, honestly, perfectly happy if somebody
showed that it was all a hoax. I can go back to my day job. That could be a hoax, but other
things might not be. This is the point. This is why it's nice to remove some of the stigma about this topic because it's all just data and anomalous events
are such that there's going to be,
they're going to be rare in terms of how much data
they represent, but we have to consider
the full range of data to discover the things
that actually represent something that's,
if we pull at it, we'll discover something
that's extraterrestrial or something deep
about the phenomena on Earth that we don't yet understand.
Right. Well, if it only stimulates people, for instance, to
think, okay, well, what happens if we could move like that with
momentumless movement? And, and it stimulates young individuals to go into the sciences to ask
those questions. That to me is fascinating. I mean, after I've been openly talking about
this in the last year, especially, I've had a number of students from top schools who
aren't my students come to me and say, if I can help, let me, how can I help?
I never had thought about this before, but you opened you and others,
not just you and others have opened my mind to thinking about this matter.
Yeah, that's why it's actually funny that Elon Musk doesn't think too much about
this. These kinds of propulsion systems that could defy the laws of physics as
we currently understand them. To me, it's a powerful way to think, what is possible? It's inspiring,
even if some of the data doesn't represent extraterrestrial vehicles, I think the observation itself, it's like something you mentioned, which is hypothesizing,
imagining these things, considering the possibility of these things, I think opens up your mind
in a way that ultimately can create the technology. First, you have to believe the technology is
possible before you can create it. In my own lab, we always look for, as I've said before,
what is inevitable?
And saying inevitably, this is the kind of data we need.
But if we need that kind of data, the instrument we want
doesn't exist.
OK, so I imagine the perfect instrument, I can't make it.
And you back into something which is practical and then you in a sense reverse engineer the future of what it is that you want to make and I've started and sold like using that basic premise. And so it was always something that didn't exist today,
but we imagined what we wanted.
And at the time, many people said it couldn't be done.
I mean, for instance, all the gene therapy
that's done today with retrovarses
came from a group meeting in David Baltimore's lab.
I was a postdoc with him.
And one of the other postdocs wasn't able to make retrovarses in a way
that he wanted to. And I realized I had a cell line that would allow us to make retrovarses
in two days rather than two months. And so he and I then worked together to make that system.
And now all gene therapy with retrovarses is done using this basic approach around the whole world because something couldn't be done and we wanted to do it better and we imagined the future.
And so that's, I think, what the whole UFO phenomenon is doing for people is like, well,
let's imagine a future where these kinds of technologies are, but also let's imagine
a future where we don't blow ourselves up, right?
So if these things are there, they manage to not blow themselves up.
So it means that at least one other civilization got past the inflection point.
So if some of the encounters are actually representing alien civilizations visiting
us, why do you think they're doing so?
You suggested that perhaps it's the study and understand their own past.
All right, right. What are some of the motivations do you think? And again, from our perspective, us as humans, what motivations would we have when we approach other civilizations we might discover in the future? Well, I think one motivation might be to steer us away from the precipice,
right, or on the assumption that, you know, even if we make it past the precipice, at least
we're not a bunch of psychopaths, you know, running around. So maybe there's a little bit of motivation there to make sure that you're the neighbor that's growing up next to you is not, you know, unruly.
You know, but I mean, maybe it's sort of a moral imperative, like what we have with, you know, creating
national parks where animals can continue to live out their lives in a natural way.
Um, I don't know.
I mean, that would be, I mean, the problem is we're imagining from a anthropomorphic viewpoint
what an alien might think.
And as I've said before, alien means alien, right? I mean, not Hollywood aliens, but a whole different way of thinking,
and a whole different level of experience, and let's say wisdom, hopefully,
that we could only hope to understand.
Now, but if we ever get out there, if we ever make it past our current problems,
and even if we don't have faster than light travel, and even if we're only using
ram scoops or light sails to get where we want to go, and it takes us 10,000 years to get
somewhere or to spread out, we might encounter such things, and we're just gonna stop all over it,
like we did in colonial South America,
or Africa, or all the rest,
on our current path, likely.
You know, and so what are we gonna learn?
Well, we're getting better and better
at understanding what is life.
And I think we're getting better and better
being careful, not to step on it when
we when we see it. And this is one of the nice things about talking about UFOs. Is it
expands the over to the window? It expands our understanding of what possibly could be
life. It gets us to think. It gets the scientific community to think. When we go to Mars, we'll
go to these different moons that possibly have life,
you know, we're not looking at legged organisms.
We're looking at some kind of complexity
that arises in resistance to the natural world.
And there's a lot of interesting
that resistance to the natural world. And there's a lot of interesting that distance to the natural world. Yeah.
So somehow there's a rebellious process complex system going on here. And I don't know, you
know, the many ways it could take form. And there's a sense, you know, for aliens that as
the technology develops, they take form more and more in as information as something that
can influence the space of ideas of the processing of data itself. So I just, this idea of embodiment
that we human so admire, physically visible, perceivable embodiment, maybe a very inefficient thing.
Right.
Right.
If you think just about your area, AI, we're trying to make smaller and smaller and smaller
circuitry.
That is basically closer and closer to the physics of how the universe operates, right,
right down at the level of any quantum computers are basically right down about quantum information
storage.
So fast-forward, 10,000, 100,000 years, maybe somebody found a way to embody AI directly
into the physics of the universe, right?
And it doesn't require physical manifestation.
It just sits in space time.
It's just a locally ordered space.
We are just locally ordered space time, right?
You know, I mean, people, but maybe they just, they found a way to embody it there.
They probably have to get really good at not, you know, trampling on the ants.
The the better your technology gets the easier it is to accidentally like oops, right?
Just destroy these simpleton biological systems. We constantly think about whatever these things might be.
We think that there's some sort of a unified
force. Well, maybe they're not unified. Maybe
they are as disparate as you and I are. And maybe what keeps them from stomping all over the
ants is each other. Right? That they are in a self-tension to prevent one or more of them from running amok.
Oh, yeah. I mean, that's kind of the energy of nations that we have on Earth. So, there's
always, there's always going to be this hierarchy.
This hierarchy that's formed of greater and greater intelligences. And they're all probably
also wondering, wait, what's bigger than me?
Exactly. That's what I always wonder is that maybe that there, what keeps them in line,
is something that is beyond them. Like, what created the universe? I mean, that's probably
a question that bothers them too. What about the communication task itself? How hard do you think it is for aliens to communicate with humans?
Is there something you think about about this barrier of communication between biological
systems and something else?
How difficult is it to find a common language?
Well, I think if you're smart enough or technologically enabled enough, it's relatively straightforward. Now, whether
your concepts can ever be dumbed down to us, that might be hard. I mean, again, talking to
the ants. Talking to the ants. I mean, they don't. They don't Instagram.
So you want to look good in this picture.
Let me explain to you why.
Yeah.
So that's the essential problem of, you know, perhaps they
realize who it is that they're talking to.
And they say, we are rather than muddy the picture,
we're only gonna give them limited information.
Right, and yeah, maybe we could sit down like you and I
and have a conversation, but then they would make assumptions,
the humans would then make assumptions about us that aren't true,
because we're not humans.
Right, so let's stay at arms length.
Let's just let them know that we're here. Right? And here's the limited amount of communication.
Again, this notion that if you give somebody everything, they'll get lazy. And you know,
if they've been around as long as they have, they've seen every kind of thing that can go wrong
And so it's it's they know as much as they might want to step in that would be a wrong thing
Yeah, you have to also understand that the the amount of wisdom they carry
Yeah
You know and so it's it's very easy as well for religions to I don religions to, I don't want to get into a
whole religious conversation, but you could, very easy for rel, you could see how religions
could call them angels or devils or what have you because again, if you're trying to fit it into
a framework of cultural understanding, the first thing you reach for is God.
And so when you look at what these things are, and again, with the angels and the devils,
in a similar sort of way, their communication is limited.
They just kind of give little, what's the oracle of Delphi.
They kind of give these Delphic pronouncements and
then it's up to you to figure out what it is that they really mean.
Stephen Greer claimed that a skeleton discovered in the Tacoma region of Chile might be an alien.
You reached out to him and took on the task of proving or disproving that with the rigor of science.
The result is a paper titled
whole genome sequencing of adicoma skeleton
shows novel mutations linked with dysplasia.
Can you tell this full story?
The story was, as you put it right there, correct,
reached out, got a sample of the body, did the DNA sequencing,
then worked with a team of two other Stanford scientists and Roche sequencing group, Roche
diagnostics, and probably a total team of about 11 or so people. And as a standard in these kinds of things,
the professors actually don't do the work.
The students do the work and figure out the answer.
And then we helped them put together the story.
And the story was simply that it was human, 100%.
I went into it thinking it was originally a monkey
of some sort.
I got kind of excited a few months into the process
thinking, well, what happens if it is an alien?
You would describe some of the characteristics
of the skeleton that make it unique and interesting.
Primarily, it had dysmorphias of the brain.
And so the first thing I did actually, when I got
pictures of it, I took it to a local expert at Stanford, and he was on the paper. And he was the
world expert in pediatric bone dysmorphias. He literally wrote the book. And on this, because
that's what you do. You go to an expert when when is outside of your field of interest and he said well
I haven't seen this particular collection of mutations before or this
this physiology before but here's what I think it might be
And he said but based on the size of the of the thing and the bone density, it would appear to be like six or seven years old.
Now again, that's the that's the thing where I think the lay public doesn't understand or takes a speculation like that and turns it into a fact.
No one ever said that it was that age.
We only said that the bones made it look like it was that age.
But then we went back and looked for genetic explanations of why things might look the
way they did.
And if you again read the paper, it's very carefully caveated to say that these mutations might result in this.
But what we did find was an unexpected,
the large number of mutations associated with bone growth
in this individual.
And it was just a bad role of the dice, right?
You roll the dice enough times with enough people
born every year and someone You roll the dice enough times with enough people born
every year, and someone will roll the wrong dice all
at once.
So the sad part about it was individuals in the UFO
community who wanted to think that they
were some sort of conspiracy around it, right?
That somebody had somehow convinced all of my students to lie.
Right.
I mean, come on.
I would lose my job, first of all, and they would all be in trouble forever.
Yeah.
But also is just projecting malevolence onto people that doesn't, I don't think exist in normal
populace and especially doesn't exist in the scientific
community. The kind of people that go into science, I mean,
this is what bothers me with the current distrust of science,
is there they might be naive, they might, they might not,
especially modern science, look at the big picture philosophical ethical questions, all that kind of stuff.
But ultimately, there are people with integrity and just a deep curiosity for the discovery of cool little things.
There's no malevolence,ly speaking in the scientific community. And so I mean, there's a bigger story here, which is
You know, there's a hunger in the populace to discover something anomalous something new and
You know science has to be both open to the anomalous but also
To reject the anomalous when the data doesn't support it.
Right.
What would you make of that, you know, walking that line for you because you're dealing with
your phone counters, you're dealing with the anomalous?
Well, people have said, let's go back to the Otakama case that I was debunking it.
Well, debunking is a loaded term, Sort of assumes that you were going in purposefully
to prove something is wrong.
I wasn't.
I was just going in to collect the data.
And I showed that this one was human.
There was another skull that somebody had at one point,
it was called the star child, they called it the star child skull.
I said, I looked at it. I looked at the DNA sequencing that they had done. I said,
this is human. End of story. The people who owned the thing at the time disagreed with me,
and then eventually another group came in and proved that I was right. And it's not about debunking.
It's about getting the more spectacular and hyped cases
off the table.
I mean, the reason I got interested in it
is because somebody was hyping it.
And not because I wanted to disprove it,
but because I just wanted to know.
And let's get it off the table
because it's usually the most extravagant things
that are most likely to be wrong.
Somewhere in the rubble will be something interesting.
And so that's what you do.
You get the draw off the table, and then somewhere in the data will be something worth
real inquiry.
And that if you inquire deeply enough, we'll be extravagant.
Yes.
Exactly. And that's what actually excite scientists do.
I mean, you want with the rigor of science
to actually reveal the extravagant.
And so look at CRISPR, as probably the most perfect example of that,
these weird sequences in bacterial genomes,
all arrayed one after the other with these strange sequences around them,
but when you looked at the sequences, they looked like viruses.
And so how did they get there? And lo and behold, after a lot of effort and work,
well, a couple of Nobel prizes went out the door, but these strange things ended up having
extraordinarily extravagant possibilities.
You've also looked at UFO materials.
You are in possession of UFO materials yourself.
Claimed UFO materials.
Claimed.
Aledged UFO materials.
That's right.
So, with another term, weird materials that don't seem to
have a story that was story that doesn't seem to be of natural origins, but
it's not
you know
There's a process to proving that and that process may
Take decades if not centuries because you have to keep pulling at the string and discover where they could possibly come from.
But anyway, you're in possession of some materials of this kind.
Can you describe some of them and maybe also talk to the process of how you investigate them?
How do you analyze them?
Right.
So let's say that there's two classes of materials that I've been given by people,
and they're not given by like the government or anything, just given people who've collected them,
and there's a reasonable chain of evidence associated with them that you believe is not just a pebble,
somebody picked up off a road. There are almost always things that people have claimed have either been
always things that people have claimed have either been dropped off as like some sort of a left over material, molten metals, or they are from an object that was released from this, so that kind of exploded.
There are almost always metals. I have some couple of things that might be biological that are
interesting that I haven't really spent a lot of time on yet. When you look at a metal, you basically, well, okay, what are the
elements in it? And what's it made of? And so there's pretty standard approaches to doing that.
Most of them involve a technology called mass spectrometry, and there's probably about five or
six different kinds of mass spectrometry that you could bring to bear on answering it.
And they either tell you, depending upon the limit of the resolution of the instrument,
they either tell you the elements that are there, or they tell you the isotopes that are there.
And you're interested not just in knowing whether something is there or not,
you're interested in knowing whether they're of it and in the case of elements,
how many different isotopes are there.
And that's kind of where in some of these cases it gets interesting, right?
Because in at least one of the materials, as we first studied it, the isotope ratios
of in this case it was magnesium or way off normal.
And I just don't know why. It doesn't prove anything. All it proves is that it was probably
accomplished by some kind of an industrial process, whether it's the result of a process or whether, and this is sort of the leftover,
or whether it was made that way for a particular purpose, I don't know.
All I know is that it was engineered.
That's it, right?
But then it's, the question is, question is sort of you go one step deeper. Why would you engineer it?
Right. Well, why engineer, what does the engineer means? There's all kinds of it could be a
byproduct. It could be the main result of an engineering process, it would be a small part of the engineering process
that is the main part.
Well, so the ratios of isotopes for any given element
are basically the result of stellar processes.
Supernova blew up sometime several,
several billion years ago,
that became a cloud. sometimes several tens several billion years ago,
that became a cloud, those atoms coalesced gravitationally
to form another sun,
and a ring that became a rocky planet.
And the ratios of the isotopes were determined
at the time of that explosion.
And so everything in the local solar system
is more or less of that ratio,
depending upon certain gravitational difference.
But by fragments of a percent,
not whole tens of percent difference.
So what do humans use isotopes for?
Mostly to blow stuff up.
I mean, the vast majority of the isotopes for, mostly to blow stuff up. I mean, the vast majority of the isotopes
that have been made in the per-pound or tonne are things like certain ratios of plutonium
and uranium to blow stuff up. We don't make or engineer isotopes, which it's today is
relatively easy to do, but it's still expensive. For any other reason, apart from, let's say, as anti-cancer, we use stabilized atopes and
money these days as a counterfeiting tool.
You basically embed certain ratios of isotopes in to make it harder for counterfeiters to
accomplish.
But other than that, we don't do anything with that. So why would you make
grams of such material in this one case and drop it around on a beach in Brazil?
So which case are we talking about? This is the uvatuba case.
Can you describe this case a little bit further? Like what material we're talking about,
just the full story of the case?
So it's an interesting one.
It's an interesting one.
So a fisherman saw an object that released something or it exploded and it was this
relic, I've got some big chunks of it, relatively pure magnesium with obviously something
else in it because magnesium burns.
So it had something in it that would other metals, simple alloy, that would prevent it from
basically burning up.
And so the question is, and so then we had two pieces that came from two different chains
of custody,
both claimed to be from the same object.
At least physically, when you look at the two things, they look the same.
So we took small fragments of each of them.
We put them in an instrument called a secondary ion mass spec,
which is an extremely sensitive instrument, and it can see down to .001 mass units, which is important for, let's say,
more arcane reasons, but it's a sensitive instrument.
And so one of the chains of custody, we had two pieces from the same chain of custody, and then
two pieces from the other chain of custody.
One of them had completely normal magnesium isotope ratio, the spendeasing 24, 25, 26,
and the other was off.
Not just slightly off, way off, and they were both off to the same extent.
So I mean, it was sort of like you had an internal control
of what was normal, and you had this other one
which was well.
And so, you're left with,
it's kind of an open question.
Was this a hoax?
Were these two chains of custody, one of them a hoax,
that somebody purposefully introduced those things, because you could do it.
It would cost a lot.
I mean, at the time that this was found, I guess the 1970s or so, might have been earlier
I forget, the amount that I had would have cost several tens of thousands of dollars to
make.
Again, it's not something you would just throw around
and why would you do it in the hope that some guy 30 years from then would pick it up
and study it? It's a very subtle, subtle, true. It's a long-term plan.
So I just don't know what to make of it, except it's interesting. But it's, so a different kind of question
that you're asking is what constitutes evidence, right?
So is this sufficient evidence?
Absolutely not.
But somebody's put it forward, I have the time, it's my time.
I'll study it and my objective is to sort of take those that I think are
credible enough and do a reasonable analysis, put it out there. And maybe somebody else will
come up with an idea as to what it is. Now, what would be better is some sort of true technology,
right? Something that is obviously, we don't have it, you know, and people like
Neil deGrasse Tyson and Seth Schostak have come out rightfully and have said,
you know, when you show up with, you know, something really obviously
technology that we don't understand, you know, then we'll pay attention, right?
Not just material. Not just material. A piece of metal is interesting, but
and several of the things that I've looked at and things that people, other things that people
have come to me with, we've found to be completely banal or we're actually pieces of aircraft
be completely banal or we're actually pieces of aircraft that were invented back in the 1940s.
And so take them off the table.
But I think again, I think showing up with technology that we humans would find completely
novel is actually a really difficult task for aliens because it obviously can't be so novel
That we don't recognize it for what it is for what it is and so and I would say most the technology aliens likely have
Would be something we don't recognize
So they it's actually a hard problem how to convince ants
Like you first have to understand what ants are tweeting about
ants. You first have to understand what ants are tweeting about. What they care about in order to inject into their culture. That's why I think it would be the technology that
you could present is in the space of ideas. It's tried to influence individual humans with the encounters and try to, with this
kind of thing you mentioned about us not taking messages about us not taking care of
the world.
It's difficult.
I mean, I, for them to understand you have to come up with trinkets that impress us.
I mean, maybe the very technology, the fascination with
the development of technology and the development of technology, the actual act of innovation
itself is the thing that they're communicating. I mean, this is kind of what Jacques Valle
thinks about. Is the role of the control system, he calls it. The control system. Well, let me ask Abba Jacques, who is he,
you know him, who is Jacques Valle?
What have you learned from him?
About life, about, about, about UFOs,
about technology, about our role in the universe.
Well, I met Jacques actually soon after the whole
out of comma thing happened.
I was visited by those people associated with the government
and whatever around the Havana,
what ended up mostly being Havana syndrome patients,
but also Jacques at the same time.
And they were actually working behind the scenes with each other
that, oh, here's this Stanford professor who is willing to talk about this stuff
and investigate things.
Maybe we should go talk to him.
And he reached out through a colleague and I had lunch actually at the Rosewood Inn up on
near Sandhill. So Jacques is one of the first openly active scientists, and he's really
a scientist in this area, going back to the 1960s. And, you know, he's put forward a number
of ideas, speculations, about what it might be that people are interacting with.
And the first thing that I learned from him is this notion of what he called Kabuki theater,
that many of the things that people have seen are, I remember reading his books and thinking,
he uses this word absurd a lot. The things that people claim they see are absurd,
He said, the things that people claim they see are absurd, right? A ship doesn't land in a farmer's field,
and then come up and knock on the door and say,
can I have a glass of water?
And these are stories literally out of newspapers
from the 1930s.
It's absurd.
And the other thing that people say,
ships don't crash.
If you're so technologically advanced, you don't crash.
It's absurd that they crash. So, this is put on as a show. It's meant to, it's an influence
campaign, right? It's not meant to influence individuals. It's meant to influence a culture
as a whole. Maybe
they don't look at us as individuals. Maybe they look at us as an organism that lives on
a planet, right? And perhaps rightly so. And so that's how you interact with them. That's
how you influence them. So that was one of the first things that kind of took me back and
realized, wow, there's actually maybe there's a puppet
master behind the scenes that's doing this influencing and then all this stuff about aliens is
not true per se. They're just a representation of something that is meant to influence. So that was probably the most interesting thing. I mean, the man is brilliant. He's also, it can be, and I'm
sorry, Jacques, he can also be incredibly annoying to have a conversation with because he will pick
apart your arguments or anything that you think you know and show you why you don't know what you
think you know. And he uses the, he uses the example that for me that is, is all you need is one counter example to any
conclusion and you're wrong.
And so I learned from him, I mean, I'm supposed to be a good scientist, but I learned from him,
don't talk about conclusions, just talk about the data.
Because data is not wrong.
I mean, convince yourself that the data is not wrong or not an artifact. But be careful about your conclusions because whatever is going on, it's much more
complicated than we imagine.
Well, that's powerful. Being able to always step back is we humans get excited. We start
to jump to conclusions from the data, but always step back. We're being able to always
step back is we get it. We humans get excited. Yeah. We, being able to always step back, is we here as get excited,
we start to jump to conclusions from the data,
but always step back.
Well, in some of my Twitter feeds,
when I dare to go on Twitter,
are full of, well, when are you gonna give us the answer?
Well, you know, science is not immediate.
You gotta have to be patient.
And even some of my science colleagues have said,
well, where's the data?
My answer to them has been,
where's been your work to try to produce any?
You know, I'm not here to give you everything
on a silver platter.
We talked offline how much I love data
and she learning and so on.
And it's been really disheartening to see
that the US government not invest as much
as they possibly could into this whole process.
So let's jump to the most recent thing, which is what do you make of the report titled
preliminary assessment on identified aerial phenomena that was released by the Office
of the Director of National Intelligence in June 2021.
So this was like, okay, we're gonna step back and we're going to like,
where do we stand and where do we hope the future is? What do you make of that report?
It's hopeful. I see it is very hopeful, very hopeful. I think the adults are finally stepping up
in and being in charge, right? In a good sense of adult. Was that in the good sense of adult?
In the good sense of adult.
You know, just childlike curiosity is pretty powerful thing.
That's true.
Yeah.
It's, but it's also I think the people who were worried
that the populace at large might run screaming
into the streets and riot.
You know, they have, you know, they basically,
the empiric evidence is they're wrong.
You know, these videos and all these things have been out for now what, five years.
Most people don't even know about it, right?
So as hyped as it's been and all over the newspapers that it's been and et cetera, you
know, even Tucker Carlson has talked about it many times on his news program.
Joe Rogan has a lot of people don't know about it.
So I think people, if it's not affecting their day-to-day life,
they're going on with their day-to-day life.
So, but that said, I think it was an important sea change
in the internal discussion is going on in the government
because, and the reason being, that I think this
is actually partly true with the maturation of human social technology. It was becoming
so obvious that this stuff was showing up again and again and again around our ships.
They just couldn't keep it quiet anymore. Right? And so it's like we need to do something
about it. And Luel Azondo and Chris and others to their great credit found the right angle to talk
about this. It says, well, okay, let's say it's not out there. Maybe it's the
Russian, is the Chinese or somebody else? We should know about this because we
damn sure know it's not us. So that to me is an important thing to finally be a little bit more open about the matter.
But like I often say, I'm not looking for people to give me permission to do anything. I'm
just going to do the analysis myself with what I have. Avilobe has taken the same approach.
He said, I'm not going to wait for the government to give me telescopic information about technologies
or things that might be even in our own solar system.
I'm just going to collect it myself.
And that's the right way to do it.
Don't wait for somebody else to give it to you.
It's also possible to inspire a large number of people
to do a wider spread data collection. Yes. I mean, you yourself can't do a large number of people to do a wider spread data collection.
Yes.
I mean, you yourself can't do a large enough data collection that would, if you're talking
about anomalous events.
Right.
Right.
You should be collecting high resolution data about everything that's happening on Earth
in terms of like, in terms of the kind of things that would indicate
to your strong signal that something weird happened here.
And this is why governments can be good at funding large scale efforts.
Yes.
NASA and so on working with SpaceX would blorge and fund capitalistic sort of fund companies,
fund company efforts to do huge moonshot projects.
And in the same way, do huge moonshot data collection efforts
in terms of UFOs.
I mean, we're not, it needs to be like 10X,
like one or two orders of magnitude more funding
to do this kind of thing.
And I understand on the flip side of that, if you make it about what are the Russians,
whether the Chinese doing, you'll make it a question of geopolitics, it gets touchy.
Because now you're kind of taken away from the realm of science and making it military,
making it military.
Some of the greatest, this is what makes me,
as an engineer, makes me truly sad
that some of the greatest engineering work ever done
is by Lockheed Martin and we will never know about it.
Yeah, I agree, I agree.
I wish we were, it was different,
but it's the world we live in.
But related to that that UAP task force
announcement that you just said you know
The bill was passed in the Department of Defense and now a formally established as an office to
collate that information and also to be transparent about it
Money is now set aside
Right, well, what do you think of it just in case case people don't know the DOD establishing new department to study UFOs
Called airborne naming come on, but yes airborne object identification and management synchronization group
Hey, do you know how to pronounce that? No, I don't know. I am a G
It's stupid and I'm a renamed, but A.O.I. M.S.G.
A.O.
All right, it's directed by the Undersecretary of Defense for Intelligence and Security.
What do you make of this office?
Are you hopeful about this office?
I think there's still a tug of war going on behind the scenes as to who's going to control
this. But I do know though that money has been set aside that will be used to
make things more public, right? To start to get others involved. And you know, there's
I'm involved with an effort to get other academics involved. So you think there might be some of that
money could be directed towards funding, maybe like groups like yours to do some research. So they would be open to that, you think.
I hope so. I mean, nothing is said in stone yet. So, you know, I, and I'm not hiding anything,
because I just don't know anything, right? But I do, I do think that there will be public efforts. Now, there are being set up other private efforts
to bring monies involved and to use that to leverage
and get access to some of the internal resources as well.
So what you're seeing is kind of an ecosystem building up
in a positive sense of people who are willing to do the research.
So, you know, before it, it would be you couldn't even go to a scientist and ask them to help.
Now, if there's money, as I said before, scientists are essentially capitalists. We go where the money is,
you know, we're, I mean, the work that I've done, I did out of my own pocket.
we go where the money is. I mean, the work that I've done, I did out of my own pocket.
And probably about 50, 60, 70,000 dollars of money went into the paper we published out of my own pocket. But the amount of money that needs to go in is in at least a few millions to do a proper
analysis of these materials. The work I know that the Galileo project is involved with,
it's probably in the five to 10 million range
to get stuff done.
But that's actually a relatively modest amount of money
to accomplish something that has been in the zeitgeist
for decades.
I should also push back a little bit on something you probably will agree with.
You said scientists are essentially capitalists.
What I've noticed is there's certainly an influence of money, but oftentimes when you
talking about basic research and basic science, the money is a little bit, a little bit
ambiguous to what direction you're doing the research in and the scientists get really good
At telling a narrative of like, yeah, yeah, yeah, we're fulfilling
The purpose of this funding, but we're actually they end up doing really what they're curious about
Yes, and of course you cannot deviate like if you're getting funded to study penguins in Antarctica
You can't start building rockets,
but probably you can because you'll convince some concoctin narrative saying rockets are really
important for studying penguins in the entire... I think that's actually... this is one thing I think
people don't generally understand about the scientific mind is I don't know how capitalistic
it is because if it was, they would start a FN company.
No, no, no, no.
I mean, when I'm at capitalist, I didn't mean in the, they'll start companies per se.
I mean, we can only do the research where there's money.
And so from, you know, maybe it's a bad use of the term capitalists.
So, but the, we will only do the research where there's money.
I mean, why do most people work, many biologists work in cancer research?
Because there's a lot of money there.
It's an important problem.
But I might not have ever gotten involved in it
if there wasn't money.
I might have gone and I was gonna be a botanist
when I was a kid.
That's what I wanted to do.
So having money available will bring people to bear.
Now, another mistake that's often actually made,
I think by the lay public about science,
is that people think that we're paid
to do things. Just as you said, I get a research grant, and luckily from the NIH, they give you a
fair amount of latitude, I will go my own way, and I'll find something, I might have proposed
something, but I'll end up somewhere entirely different by the end of the project. And that's how
good science has done. You follow the data, you follow the results.
And so that's what I'm hoping can be done here.
I think the worst kind of thing
that could be done with this subject area
is to put it inside another company
where they have a set plan of what it is they're gonna do
and the scientists either do what the executives tell them to do or not
That isn't how anything will really get discovered
Put it get it out into the public get open minds thinking about it and then publishing on it and doing the right kind of work
That's how real progress will be made with this
Let's again put put our sort of philosophical hats on.
Do you think the US government or some other government
is in possession of something of extraterrestrial origin
that is far more impressive than anything
we've seen in the public?
If I'm not seen anything personally,
but if I believe the people who I don't think can lie, yes.
How does that make you feel in terms of the way government works,
the way our human civilization works,
that there might be things like that,
and we're not, they're not public.
Is, is there a hopeful message for transparency that's possible?
Like if you were in power, and I'm not saying president,
because maybe the president is not the source of power here,
would you release this information in some way or form?
Yes, if I were, I think it would,
I think it's, I think it's something that can bring
humanity together. Right. I think that knowledge of this kind of thing to know that we are, you
know, we are more alike than we are different in comparison to whatever this is is a positive thing for us.
And to know, I don't necessarily care that the government has been hiding it, and I think
people who have been talking about we should give government officials or whatever amnesty,
I think that's probably the right answer.
This is just a time to look back and say, you did something wrong.
You did whatever you did because that was the data you had available to you at the time
and those, you had good reasons for doing it.
Now, if your reasons were selfish, if your reasons were you wanted to do it because you
wanted to monetize it yourself to your benefit, but against that of others, then I think maybe
there's something else it could be said.
But, you know, an opportunity to get all this information out
if I were in charge, I would try to do it.
Now, I might be shown something though,
this is, there's a reason why you don't want to let anybody know this.
You know, maybe you don't want everybody having access
to unlimited energy, because maybe you might turn it into a bomb.
Or something that gives you hints that something like unlimited energy is possible,
but you haven't figured it out yet. And if you make it public,
maybe some of the other governments you have tensions with will figure it out first.
Right. I mean, that's kind of an arms race going on, I think.
You know, all forms and it makes me truly sad because it's obvious that, for example,
the origins of the COVID virus, it's obvious to me that the Chinese government, whatever
the origins are, is interested in not releasing information about it because it can only be
bad for the Chinese government. And then every government thinks like this, like every
actually this has been disappointment to me talking to PR folks at companies, like they
are always nervous. They're always like conservative. In the sense,
like, well, if we release more stuff, it can only be bad. And then an Elon Musk character
comes along who tweets ridiculous memes and doesn't give a fuck. And I've been encouraging
CEOs, I've been encouraging people to be transparent. And of course, government national security is really like another level.
It's human lives is steak.
But let's start at the lighter case of just releasing some of the awesome insights of
the tech, how, how the sausage is made, the technology and being transparent about it because it excites people.
It, like you said, it connects people and inspires them.
It's good for the brand.
It's good for everybody.
I honestly think this kind of idea that people will steal the information and we use it against
you is an idea that's not true in this idea of the 20th century.
Like you said, some of the benefits of the social media, our social world is that
transparency is beneficial.
And I hope governments will learn that lesson, of course, they're usually the last to learn
such lessons.
Right.
What do you make of Bob Lazar's story in terms of possession of aircraft?
Do you believe I don't believe in the Bob Lazar story to be quite honest.
I mean, Jeremy Corbell has done a great job interviewing him and has done some, you know,
beautiful documentaries. I just don't I don't know how to interpret it. And you know, and again,
there's some of the people who I fraternize with think it's all rubbish. But he maybe he's right,
but I don't know. I mean, the problem is, and this is a little bit different about how I approach the whole area than a lot of others.
I'm less interested in going over old paperwork and all these old histories of who said what, you know, the whole he said she said of the history of UFOs.
I'm a scientist.
I worked on the brain.
I'm a scientist. I worked on the brain area because it's something I can collect data on. I can go back to the same individual, collect their MRI again, and redo it. I can hand that
MRI to somebody else. They can analyze it. I can get materials. I can analyze them. I
can get some of these skeletons. I won't touch any skeletons ever again, but I can analyze
it and somebody else can reproduce the data.
I mean, that's what I'm good at.
And so, you know, I'm not going to go into the whole,
I'm not a historian.
Yeah, that's true, but there's a human side to it.
Sometimes I think with these, because again,
anomalous, rare events,
some of the data is inextricably connected to humans.
The observations, I mean I hope in the future that sensory data will not be polluted by human
subjectivity, but that's still powerful data, even direct observations, like if you talk about
pilots. So it's an interesting question to me whether Bob is our telling the truth, whether he That's still powerful data even direct observations like if you talk about pilots
And so it's an interesting question to me whether Bob was our telling the truth whether he believes he's telling the truth to and
What also what impact his story and stories like his have on the willingness of governments to be transparent
Mm-hmm, and so on so know, you have to credit his story for captivating the imagination of people and that getting the conversation going. He's maintained his story for all these years with
little to no change that I'm aware of. So, but there's so many other people who are, let's say,
experts in that story. They're got, you know, you accumulate a set of sort of circumstantial
evidence where your gut will say that somebody is not telling the truth. Yeah. You mentioned
Avilob. I forgot to ask you about him more. You know, because you've analyzed specimens from here on earth
Mm-hmm. What do you make of that one? And would you make broad the of our efforts to look?
Look at rocks essentially or look at objects
flying around in our solar system. Is that a valuable pursuit or maybe most of the stories or can be
Most of the fascinating things could be discovered here in Earth or in other nearby planets.
Just going to Amo Amoa, I think,
Avis' insight is an interesting speculation.
Like I was saying before, people can sometimes look at something and not see it for what it is.
Many would just look at that and not see it for what it is. Many would just look at that and say,
oh, it's an asteroid and dismiss it. There was something odd about the data that Avi picked up on
and said, well, here's an alternative explanation. That actually better fits the models than it just
being a rock. And to his credit, he just has ignored the critics because he believes the data is real
and is using that then as a battering ram to go after other things. So I think that's great.
Yeah, what does this mean? Does he say it could be of alien extraterrestrial origin?
Well, that's one of the things. He's explained how it could be a light sail. And a light sail is certainly within near human capabilities
to make such a thing. I think Yuri Milner is a Russian billionaire. He's involved, I
think, in a project to make light sails with laser, you know, to launch them with laser power
essentially towards Alpha Centauri.
Right?
So, it's something that humans could make.
I think Ovi's proposal is perfectly within the realm of possibility.
I mean, sadly, the thing is, you know, now nearly out of our solar system.
Yeah, so I mean, to me, that's inspiring to do greater levels of data collection in our
solar system, but also here on Earth, and it just seems like we should be constantly collecting
data because the tools of software that we're developing get better and better at dealing
with huge amounts of data is changing the nature of science.
I mean, collect all of the data.
Right. Collect the data. I mean, I, I, um, the Galileo project asked me over the weekend
to join, and I did. So, um, you know, I'm not a specialist in any of the stuff that they're
doing, uh, but, you know, in looking at the list of people who are on there, there are
really no biologists on there. So at So at some point, if my expertise is required
for something, what's the goal
and the vision of the goal of the project?
Better talk to Avi, but my understanding
and just actually looking at the,
at the sort of the bylaws this morning,
literally just got them,
is number one, collect the data on UAP
and number two, collect data on local, potentially local technological artifacts.
And you two look into this, this is fascinating.
And the obvious heading the Galileo project.
Yeah, have you spoken to him?
On the spot, yes, that was before I believe is before he was heading.
It's a new creation.
Yeah, the Galileo project was, something it's about six or seven months old now.
You know, amazing.
And he's getting a group of scientists together.
Oh, yeah, I've got 100.
Oh, it's, that's awesome.
Actually, I am, I was looking at some of their stuff over the weekend.
I'm shocked at the level of organization that they've already got put together.
That's amazing.
It looks like a moonshot project.
I mean, I've been involved with a lot of NIH, large NIH projects, which involve a lot of people in coordination,
and they're putting it together. So you're extremely well published in a lot of the fields we began this conversation with.
So you're legit scientists.
But yet you're keeping an open mind to a lot of ideas
that maybe require you to take a leap
outside of the conventional.
So what advice would you give to young people today
that are, you know, in high school or in college, that are dreaming of having
impact in science or maybe in whatever career path that goes outside of the
conventional that really does something new? If you believe in something, you believe that an idea is valuable or you have an approach
to something, don't let others shame you into not doing it.
As I've said, shame is a societal control device to get other people to do what they want
you to do rather than what you want to do.
So, shame sometimes is good to stop you from doing something unethical or wrong,
but shame also is something that is circumscribing your environment. I've never let people
who've told me, you know, you shouldn't do that line of science, you should be ashamed of yourself, or even thinking that.
Give me a break.
Why is it wrong to ask questions about this area?
What's wrong with asking the question?
Frankly, you're the person who's wrong for trying to stop these questions.
You're the person who's almost acting like a cultist.
You basically have closed your mind to what the possibilities are.
And if I'm not hurting anybody, and if it could lead to an advance, and if it's my time,
why does it bother you? I mean, I had a very well-known scientist once told me that I was going to hurt my career talking about this.
If anything, it's enhanced my career.
I have a couple of questions on this. So first of all, just a small comment on that,
I've realized that it feels like a lot of the progress
in science is done by people pursuing an idea
that another senior faculty would probably say,
this is going to hurt your career.
I think it's actually a pretty good indicator
that there's something interesting
when a senior wise person tells you this is gonna hurt your career.
I think that's just the one as a small, if I were to give advice to young people,
if somebody's senior tells you this is gonna hurt your career, think twice about
taking their advice. Yeah, I mean I think that's the primary thing. And the other, I tell my own students,
you know, I have a lab of about 20, 30 people
and has been that big since 1992.
People come and go, is it's not the data that falls in line.
That's so interesting.
It's the spot off the graph that you want to understand.
When something is way off the graph, that's the interesting thing,
because that's usually where discovery is.
And the number of times that I've stopped people in my lab
and said, wait a second, go back a few slides.
What was that? And then it ended
up being something interesting that made their careers. I could count on a few hands.
Yeah, get excited by the extraordinary that's outside of the thing that you've done in the past.
you've done in the past, I just done a personal psychological level. Is there, you know, I'm sure it's Danford, I'm sure, and you explain some of these ideas, there's pressure.
How do you, how do you not give in to the pressure? How do you not give in to the people that
say, like, that push you away from these topics that,
um, what would you say, shame?
I just point to my successes.
I say, what, you know, you're the ones who told me not to start companies all this time
ago, uh, you know, and now you're the one coming to me for advice for how to start a company.
Yeah.
Right. But from the scientific area,
it's you're wanting to take something off the table
that might be in explanation.
How is that the scientific method?
So I reverse shame them.
Reverse shame them.
So purely with reason through conversation here.
Yeah, so it doesn't feel because to me, it would just feel lonely.
There's a community.
Yeah, there's a community of science.
And you know, when you're working on something that's outside a particular
conventional way of thinking, it could be lonely.
I mean, there's a, you know, in the AI field, if you were working on neural networks in the 90s, it could be lonely. I mean, there's, you know, in the AI field, if you were working on neural networks in the 90s, it could be lonely.
I have met some of the most fascinating people ever that had I stayed the conventional track I would never have met.
I mean, truly, should I step outside of my comfort zone,
you're going to meet some really interesting people.
And, you know, because I open about this area, you know, I'll go and give a talk, you know,
in Boston, Harvard or MIT.
And at dinner, inevitably, this subject comes up. And
inevitably, somebody else at the table will admit both that
they're interested or that they've seen something. And
suddenly, the whole tone of the conversation changes. It's
kind of like there's safety in numbers. And, and then or I've
had people come to me afterwards after dinner and say, hey, I don't talk about this openly,
but so the number of scientists who know
that there's something else going on
is much larger than the scientific community
would like to think.
That's a really powerful one, which is,
I don't talk about this, you know,
openly, but here's what I believe. And you'd be surprised how many people speak like this
and hold those beliefs. And I am optimistic about social media and a more connected world
to reveal more and more, like us not to have these two personalities where like this public and private one.
We've mentioned the big questions of the origins of the universe.
What do you think is the meaning of this whole thing?
For us humans are human existence here on earth, or just at the individual level of a human
life.
What Gary is the meaning of life? I think that what we're going through today with this realization, it's kind of like you've
lived on an island your whole life and you've looked across the ocean and you've never imagined
there was another island with anybody else on it.
And then suddenly a ship with sales shows up.
You don't understand it, but you realize that suddenly your world just got a lot bigger.
I think we're in one of those moments right now that our world view, our galactic view, is opening.
Right? To something a little bit bigger.
And not just that there might be somebody else, but that there's something else.
And what it is is yet to be understood.
And the fact that it isn't understood to me is what's exciting because I can fill it
with my dreams.
And this discovery, our world might
is about to get a lot more humbling
and a lot more fascinating.
Once we look out and realize we were on an island all along.
It makes us both smaller but larger at the same time.
To me, you know, I can look outside at the stars and think and imagine what else might be out there.
And although I know that I will never see it all, it excites me to know that it's there.
Well, Gary, both to respect your time and also because at 12 I turn into a princess.
Let me just say, and thank you for doing everything you're doing as a great scientist,
as a person willing to reject the conventional.
And thank you for spending your extremely valuable time with me today.
Thanks for talking.
Thanks so much.
It was great talking.
Thanks for listening to this conversation with Gary Nolan to support this podcast. Please
check out our sponsors in the description. And now let me leave you some words from Stanislav Lem
in Solaris. How do you expect to communicate with the ocean when we can't even understand one another. Thanks for listening and hope to see you next time.
you