American Alchemy with Jesse Michels - The 26 Year Old Prodigy Reverse Engineering UFOs | Deep Prasad
Episode Date: October 5, 2024Meet Deep Prasad. Deep is a 26 year old self taught prodigy working on quantum computing and with a deep interest in UFO’s. In this video we discuss how he combines those interests by attempting to ...solve the schrodinger many body equation at scale with quantum computing; we also discuss quantum biology, quantum sensing and what, if anything, the aliens have planned for us 🛸👽 *** AMERICAN ALCHEMY is an original series hosted by Jesse Michels that explores the frontier of science and tech. Each week, we bring you exclusive interviews with some of the leading thinkers of our time. INSTAGRAM ➤ https://www.instagram.com/jessemichels TWITTER ➤ https://twitter.com/AlchemyAmerican EMAIL/BOOKINGS ➤ usa.alchemy@gmail.com SUBSCRIBE TO OUR CHANNEL: https://www.youtube.com/channel/UC7eOJzNRWY4l2UTDvIquxYg?app=desktop original music: https://open.spotify.com/artist/6LlLRudDi60Uy4jcmOSEs1 - deep prasad quantum computing computers science ufo uap Learn more about your ad choices. Visit megaphone.fm/adchoices
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We have to be comfortable with the fact that maybe when we study the abyss, it studies us back.
On this episode of American Alchemy, we meet a 26-year-old whose name is Deep Prasad, reverse-engineering UFOs using quantum computers.
And he's raised $15 million for his startup quantum generative materials to do just that.
There are too many anomalies around the world for us to ignore.
So now you're probably asking yourself, how the hell do you reverse-engineer materials?
that you don't even have access to.
Well, luckily, the Pentagon has hundreds of instances
of optical radar and infrared detections of UFOs.
And from those records, the DOD has laid out
five observable properties that are very consistent
among the UFO sightings.
These are things like sudden and instantaneous acceleration,
hypersonic velocity with no signatures.
All of these are properties that, as my colleague Eric Weinstein,
loves to say, exhibit wholly new physics,
not just new engineering.
If we're taking visitation seriously, it almost certainly means that Einstein isn't the last word, gravitational.
To me, immediately I realized that's not your average macroscopic interaction.
He thinks that the five observables point to UFOs engaging in quantum macroscopic behavior.
So what exactly do I mean by that?
Quantum physics generally governs the properties of the very small.
Things like atoms, photons, and electrons, tiny elementary particles that do spooky things like entangle at a distance,
Tunnel through physical barriers and sometimes exhibit wave particle duality.
Similarly, Deep believes that UFOs could simply be large macroscopic quantum objects.
What's to say that what we're observing now today with UAPs aren't just materials,
more advanced materials than we have access to today, whose emergent properties,
we just can't model with today's physicists and mathematics, right?
But imagine if you have a computer that's doing it, a quantum computer,
with a much more powerful brain than any other human on the planet.
They may be able to figure out what these materials are.
So strap yourself in and grab some salt
because your brain is about to be scrambled
by the master quantum chef himself.
This week's American alchemist, Deep Prasad.
Different parts of the brain have different activities.
But you know that, don't you?
Maybe you should interview me.
Why don't academics in Silicon Valley
serious, high-functioning people,
why the fuck don't they take it more seriously?
Yeah, there's just so much social pressures basically deterring people, even highly intelligent people from wanting to study this subject.
I'm here with Deep Prasad, who is 26 years old.
He has a quantum computing startup, but part of the mission of this quantum computing startup,
it's actually reverse engineering UAPs or UFOs based on their observable properties.
In some sense, the most interesting starting point is like how does one get into,
quantum computing and UAP. It completely blew my mind that the technologies, the
observables, and what was being reported, there was no way in my personal opinion
that that could be a derivative of any human science. So you have hypersonic
velocities, for example, right, with no signature.
As the waves get created around your craft, the waves at the beginning, the
sound waves at the top will get bunched up and compressed and that's the sonic boom
that you hear. So when an object can travel at greater than five times the speed of sound,
like the Tic Tac, which is estimated to reach at least 31 times the speed of sound, and it doesn't
disturb the air around you, to me immediately I realized that's not your average macroscopic
interaction. So the physics that we use to describe macroscopic bodies no longer applies to
these things. Like my colleague, Eric Weinstein, likes to say, this isn't new engineering, it's new physics.
Correct. The role of aerospace companies as holders of potentially baselines,
scientific knowledge not shared with the academic world.
Seems very wrong to me.
It may be wrong, but it's true.
It is true.
You believe it's true.
Yeah, I know it's true.
You know that there's physics knowledge
held by aerospace companies that is not known...
There certainly is materials knowledge,
which involves topological physics.
Eric and I had a pretty trippy conversation
with the guy that briefs all of the presidents on UFOs,
a guy named Hal Putoff.
For more of that conversation, you might have to wait
couple of weeks, but let's get back to deep. Okay, so how does this relate to your interest in
quantum computing? You know what, let me give you an actual example and why this might apply
to UAPs. Yeah. So, okay, so let's rewind to 1911. Because we can never, ever observe absolute
zero, we should never be able to observe exactly zero resistance. And in 1911, when Dr. Holmes
discovered the first superconductor, it blew everybody's mind because this was supposed to be
thought impossible. And 40 years later, we finally understood why this was even possible at all.
And we learned that it's because of quantum mechanics. That quantum mechanical behavior occurs
at the macroscopic scale, and that's what we're observing. And it only applies to keep in mind
low temperature superconductors. We still don't know how high-temperature superconductors work.
We know that it's some weird quantum phenomenon, but we don't have the physics and perhaps mathematics to describe what's happening there or the computer.
So what did we learn in 1911? We learned that when a material breaks the laws of physics, when anything does, it's actually probably because it's an immersion property or an emergent phenomenon, right, of underlying strange quantum mechanics that are going on.
Okay, so you're looking at properties of UAPs, things like hypersonic travel with no signatures
or, you know, breaking conservation of momentum.
You can't make that work in sort of our classical physics or aerospace, you know, abilities.
So you have that and then you have this interest sort of in quantum field theory.
How does this relate to quantum computing?
And, yeah, how do you tie it all together?
So look, when I first started in quantum computing, my goal was to be able to simulate any new material and predict it before having to make it in the lab, right?
I wanted to be able to tell, is this new combination of atoms going to be the next semiconductor?
Will it be the next solar cell, the next batteries?
That's cool.
So you wanted like the ultimate modeling software or something.
You got it.
Like what Tesla could do in his brain.
True, true.
And you would be able to do that with quantum computing?
with quantum repeating?
We will. Oh, absolutely.
Here's why.
The classic equation that we'd use
to simulate the properties of atoms
would be the Schrodinger's many-body equation.
If you can solve that many-body-shodinger equation,
you will know everything about that material.
You will know the speed of sound in that material.
You will know its resonance frequency.
You will know its heat capacity, its strength.
The problem is that in the past,
we haven't been able to do this equation
for more than about three atoms.
Not much.
It's not very useful.
In other words, the many body equation has a scaling problem.
As Paul Drax said, he literally said everything we want to know about materials has been figured
out.
We just don't have the computational resources to solve this equation.
Deep thinks that the bottleneck for solving this equation at scale is basically just using classical computers.
And with quantum computing, we might actually be able to do it and simulate metamaterials
that exhibit the five observable properties of UFOs.
We engineer every technology today and in the sense that we treat quantum effects as a side effect, an artifact, a consequence that we have to engineer around.
Quantum computers, they take a different approach.
They say, instead of treating quantum effects as this unwanted thing that we're engineering around, right, incorporating accounting for, let's actually leverage it.
Let's create quantum systems of our own and manipulate them so that we can simulate other quantum
systems because in order to simulate nature and nature is quantum mechanical, you need a system
that is also quantum mechanical. The quantum mechanical world is like a dream world. Powerful and ethereal,
anything can happen in it. However, as soon as somebody on the outside disturbs you, you wake up
and all you're left with are memories. Similarly, subatomic particles exist in a probabilistic state
of many possibilities, but when they interact with an observer, they collapse into a single state.
As a result, quantum hardware, which relies on maintaining two or more states in quantum superposition, will decoher if they're interfered with by anything from the outside.
This is the main bottleneck for building fully fledged and functional quantum computers.
They're incredibly sensitive and they often require very specific and energy-intensive environments in order to maintain coherence.
This is why initially Deep is using a quantum computer simulator instead of quantum hardware.
All quantum computers, the algorithms that we're running on them, they are universal computations.
What that means is that we will be able to model any algorithm we want on quantum computers.
And so what we can do is if you're smart enough, if you're clever enough, you can figure out the right
mathematical representation of the medic body's shodding your equation and port it onto a quantum
computer simply by the fact that you can approximate any algorithm you want on a quantum computer.
So if you have algorithms and mathematical models that map, right, from quantum computing to many bodies showing your equations, you're in the money.
And that's what we do, right?
We do hardcore research into how to map these material science problems on a quantum computers.
Describe to the audience what a qubit is.
It's the quantum version of a bit.
A bit is the fundamental unit of information for classical computers, right?
One or zero.
One or zero, exactly.
But the fundamental smallest unit of information you can have in a quantum system is a qubit.
Cubits can take on superpositions of states, right?
And so what a lot of people in popular culture, popular science, butcher, when they describe
superpositions, is that they say that the qubit is both one and zero at the same time.
That's not true.
It's not in the one state.
It's not in the one and zero state.
It's not in the one and zero state either.
It's also not not not in the one and not in the zero state.
it's in a superposition state.
But how does that equate to transmitting...
More information, so on.
So if I were to have, let's say, just 10 bits, right?
It sounds trivial, but it takes 10 bits
to describe the state of 10 bits, right?
But if I have 10 qubits,
then I need 2 to the 10 classical bits
to represent the entire quantum state
of those 10 cubits.
Because you can have all the qubits
entangled with each other,
Meaning that they can all, to describe one, you have to describe what's happening to all the others.
Take a caffeine molecule, right?
The caffeine molecule is estimated to have about like 97 electrons, right, at least.
And to describe 97 electrons fully, like fully entangled 97 electrons, right, to properly account for that,
you would need to the 97 classical bits.
And that's more atoms than the surface and all planet Earth, right?
minus the air.
So even if I took every single atom on planet Earth and converted it into classical bit,
I wouldn't be able to store the quantum state of a caffeine molecule.
For some reason, nature is able to do a level of bookkeeping in the background
with quantum states that we don't fully know how it does it.
Nature does this bookkeeping that's so computationally impossible for us to do today, right?
And that's where like ideas of the multiverse and multiverse interpretation comes in and so on.
Right.
Where people will say, well, nature's not actually storing it anywhere.
It's actually just distributed across different universes.
We have a sense of where it gets stored.
So obviously, there's a way in which quantum computing sort of simulates nature more accurately and so it can store more.
But do we have a sense of how the computing is storing either?
That's also somewhat of a black box where...
Complete black box.
We can engineer them.
Interesting.
But we have no fucking clue why it works.
Wow.
Wow, that's pretty nutty.
Every physical material ever is a quantum system.
Your brain, your skin, everything is made of atoms, and all atoms are described by quantum mechanical rules.
It's almost a form of blind exceptionalism to say that the body is not quantum, because everything else is quantum.
So how much quantum sensing is going on, that's unclear, but...
Exactly.
It's not like we came into existence as giant macroscopic bodies, right?
We literally started from amoeba.
We were closer than the quantum.
scale when we started out. So it's hard to imagine that that we didn't involve even at the cellular
level some ability to use quantum effects. Mm-hmm. For sure. Do you think your brain is a quantum
sensor? Like the Penrose argument would be, so it's like we don't perceive anything kind of in its
quantum form. Obviously we perceive, you know, a bigger proportion kind of classical stuff. Right.
And the Penrose argument would be that, you know, you have a probabilistic universe, you have Schrodinger's
wave equation and we're collapsing Schrodinger's wave into a specific eigenstate
using you know this some some quantum sensor in our brain maybe microtubules or
maybe something else right do you believe that or the thing is that with our brain
there may be parts of our brain that could behave like a quantum sensor we know
that there are birds that can navigate the earth's magnetic field yeah sense it
right using quantum sensing essentially biological quantum sensing yeah the body
in biology at large is typically warm, wet, and noisy, not conditions that you think of as
conducive to maintaining quantum coherence or exhibiting quantum properties. But scientists now know
that there are actually parts of biology that do exhibit quantum effects. For example,
there are birds called Robbins that have a specific protein called a cryptochrome in their eye
called C-R-Y-4 that actually uses quantum effects to sense the magnetic field of the Earth.
Electron pairs in the CRY4 protein arrange themselves based on the Robbins position
and direct the bird where it needs to go based on the magnetic field of the Earth.
It's basically biological GPS.
Lockheed observed these birds, right, or like the physics, and they decided,
can we replicate this with existing sensors?
Can we create a quantum sensor that does the same thing that these birds are doing
to detect the airspangeneyield?
And they succeeded.
As of six years ago, they created what's called the dark-eye spankyluses.
So with these magnetometers, they can navigate anywhere on Earth without a GPS with GPS precision.
They don't need a satellite. They can be underwater. They can be wherever the hell they want and they can...
That's pretty amazing.
There are all sorts of issues, national security vulnerabilities with GPS satellites.
For sure, for sure.
And then if you don't have access to GPS for whatever reason.
And imagine if you're an extraterrestrial species visiting a new planet and you don't have access to GPS.
How are you going to matter of view?
Magnetometer. That's it.
As we build more powerful quantum sensors, we're going to be able to learn things about the human body that will actually be medically useful.
There's already research being done and devices being built for sensing the heart and the activity of each, you know, basically atom in the heart, right?
So imagine having atomic resolution into the human body.
Wow.
These are, this is what's going to happen, right?
It's inevitable.
You see all of L.A., so that's West Hollywood right here, downtown, all the way east right?
and then you can see the beach during the day all the way west.
My God.
Yeah.
It's beautiful.
I think your blog is fascinating.
And I want to go through some of your blog posts because I think the titles themselves, I think, are worthy of explanation.
So I'm just going to go through a couple of them and you can sort of give me the summary if that works.
Sure.
Okay.
The evolution of science and the interactive universe.
So when we look at the modern scientific method, right, it was a very, it was a very,
method, right? It was invented by the credit ghost of Sir Francis Bacon. His assumption, the scientific
method naturally assumes that whatever you are deriving about the universe should be repeatable,
right? And if it's not repeatable, if it's not testable and controlled, then it's not scientific,
and it's not useful information. The issue with that is that it assumes that the universe is static,
that if I were to measure a certain volume of air, that it will never change. If it, it will never change.
If I measure the particle composition of this air, nothing ever changes.
The repeatability is there because the laws of physics are the same and so on and so forth.
Nothing will ever affect my measurements other than the errors that I already know.
The fundamental issue with Sir Francis Bacon's assumption was that as Commander Favre flies through
the air, that air, the composition, everything about it should be repeatable.
However, that day, something happened that was not repeatable, the existence of the Tic Tac.
So somewhere in that air was this anomaly, this thing that does not and is not repeatable,
yet it was clearly something that needs to be studied.
So the scientific method needs modification.
And that's what this article is about.
Yeah.
Well, another model of science, and this is maybe like a Coonian model, is that there are anomalies
that don't go explore, like we're talking about quantum field theory, like you had black
body radiation in the 1860s.
discovered by some German guy.
And it didn't make any sense.
You'd expect sort of runaway heat in this black body or whatever
if you were talking about kind of a typical Newtonian system.
And that wasn't the case.
We figured out mathematically why that wasn't the case
when Max Planck figured that out,
that light was actually quantized in the early 20th century.
But you have these things where it's like little
little pokes in the formal convention of the time and the standard paradigm. And you're like,
what is that? It doesn't quite make sense. It doesn't quite make sense. And I love that there's a
Carl Popper line. It's called Materialist Promissory Notes. And it's, you know, all of the gaps
of materialist reductionism will get filled in inevitably. But that in itself takes faith. And so I
think studying anomalies is incredibly important. Absolutely. And should be seen as a possibly
a harbinger of the next paradigm.
Absolutely.
And not shoved away and not, I mean, I think we're over-indexed on, like, people like
Michael Schumer, like justifying the current paradigm.
That doesn't move science forward.
That's not exciting at all.
It doesn't.
It also doesn't face reality.
I really believe in, you know, as cheesy as it sounds, facing reality, if we're realizing
that the scientific method is not giving us the full picture, we should be looking at new methods
too that complement science as well because we know now at least know we have good indications
that the universe is indeed not static as in if I were to measure something there is a non-zero
chance some crazy anomaly that has never been properly characterized will occur in my measurement
my experiment and we need to be able to quantify that somehow we need to account for it
We have to be comfortable with the fact that maybe when we study the abyss, it studies us back.
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One of the interesting things we've been talking about,
like physics with UAPs,
but what I find very interesting is
if you look at all into the subject,
it's not just new physics,
or if it is new physics,
there's one component that doesn't fit
with our current model of physics
outside of the observables
of the actual UAPs being very weird.
And that's that certain people see the UAPs,
and those people,
people see the certain UAPs often in various states.
True.
And so, again, the Occam's Razor, easy way to explain that away is the person is crazy.
Right.
But often these people have no mental health history.
Why do you think certain people see UAPs and is there science that will discover that might
be able to explain that?
I have two answers, right?
One is much more rational and doesn't make me sound crazy.
The other one makes me sound completely intense.
Let's start with the second one.
Okay, sure.
My lunatic answer is it's based on cellular automata.
So cellular automata is a notion that comes from computer science and mathematics.
And it's the idea that you can create highly complex, highly emergent systems from very basic cells and very basic rules, right?
Where you just define a couple cells on a grid and how they'll behave, whether they die or not, right?
This is where Conway's game of life comes and so on.
And then we see that if you let the simulation run and you let play out,
you imagine you see this completely different immersion phenomenon, right?
That's so complex.
My crazy theory is that these UAP sightings that we're seeing and so on
are part of the cellular automata where individually they may seem like one-offs and weird events,
but what we're experiencing could be part of this essentially,
game or strategy where the end goal is this very, very complex emergent phenomenon that
cellular automata leads us to. And I think that we're part of a more intelligent organisms
cellular automata game, I guess, if you will. Interesting. I think that it's, the whole point
is that it's to change society towards a new state, an emergent property, like a very complex
society that we don't even have like we're not even near right now like we're getting pushed
towards it in ways that we don't even realize that's what's weird is it almost feels like there's an
arc of tech innovation or civilization civilizational progress or something that sure um it's like
what you know why are there certain discoveries at the same time in places that didn't have any
contact with one another people were having sort of the same same thoughts at the same time
There's obviously, you know, esoteric traditions of kind of cyclical civilizations that, you know, rose up and then they declined.
And it's, I don't know, it's all very hard to explain.
But maybe tech is more preordained than we think it is.
Or maybe per like the William James transmission theory of consciousness, these things are sort of zapped into us.
And all ideas are kind of zapped into us.
Okay, let's go through some more blogs.
We have resolving key issues in quantum mechanics while simultaneously,
debunking every UFO case in this group.
I love that.
What is that?
Yeah, so that was just an April Fool's prank.
Oh, okay, okay.
Curiosity as a time capsule.
What is that?
Awesome.
So that's where I lay out my predictions for where I think UAP research is going.
That was my version of a time capsule so that one day the hope is that, you know,
five years, 10 years, 20 years from now, as we devised.
develop a deeper understanding of what UAPs are and the ecosystem around it, what it means
or where that's going to leave us.
So that's what that, yeah.
What are your predictions?
My prediction is that over the next 10 years, I think that we will have collected
enough scientific evidence, enough groups who will have collaborated and worked together
and also post-scientific groups too, right?
like I mentioned, we make some modifications to scientific method.
I think that we're going to be a state in a decade from now
where we acknowledge that we are not the only life forms
that are intelligent and super intelligent on this planet.
I vaguely believe that.
That would be an insane thing.
Say we all were like, okay, so we have scientific verification
that aliens are, you know, have a basis somewhere, whatever.
All of a sudden, you replace angels and demons in the Bible with aliens,
and you're like, okay, that was probably real.
And like a lot of that stuff might be happening now and actually my cousin who had a vision, you know, or whatever, like maybe he really did have a vision and they had something to tell him.
And all of a sudden the world becomes much more magical place.
Totally.
And it's not just these like folklore-ish funny stories that people are telling in the form of religion that people think, you know, it's just this sort of garden variety thing that you do, you show up, it's for the community or whatever.
But it's ultimately there's no metaphysical truth in it.
And then there's science, which is like cold and amoral, but it's real somehow.
This would marry those two things in this like freaky way.
It's amazing.
It would be kind of crazy, but I don't know if it's kind of thing.
I think it's inevitable.
It is inevitable.
There are too many anomalies that are being reported and that are being measured and observed around the world that for us to ignore.
You know, that relates to almost religious-like experiences, right?
Yeah.
I think that it's naive, it would be so painfully naive of us, and it is to conclude that we know everything there is about the universe where we're so close that we can say that there's no such thing as like, you know, aliens, for example, right?
Like, think about our quantum mechanics and general relativity, that describes 5% of the damn universe.
Yeah.
The other 95% isn't even describable with our physics.
Yeah.
Like, yet people are so damn confident about their worldview.
Yeah, it's crazy.
I think they mistake the map for the territory.
It's because A, love it.
Yes, that's exactly it.
That's brilliant.
What would you be working on if it wasn't quantum computer?
If quantum computers didn't exist,
I would definitely be in artificial intelligence.
Do you think AI will ever get to a point where it's generative
and a human doesn't need to feed it some ideal end state
that it's sort of judging at all?
Yes, yes.
It will be when our fundamental machine learning models
are better and improved, and we go beyond the neural and we're
the neural networks of today and when they have their own physical body because that's what they're missing is the ability to actually interact with the world around them
Where I would disagree with like Elon Musk or Nick Bostrum or those those those that camp of people is like they seem to have these like doomsday scenarios in their head they're like near term
where like these like sentient killer robots decide that you know human
are useless or you know or they don't fit into some objective function and then we end up
getting thrown out and killed.
And where we are now, which is like statistics on steroids,
to that just feels like this insane leap of logic.
And I actually think the more insidious narrative
is that AI is already killing us, but AI is just consumer apps.
And consumer apps are eating us, our brains.
I think it's brilliant.
No, that's a very, very wise insight.
Because most people who use TikTok, for example, right?
Yes.
They have no freaking clue.
Yes.
How much they are being manipulated.
by an artificial intelligence.
No idea the extent of it.
Why she ain't put the news at the bottom?
That's disgusting.
So imagine, you know, we already saw problems with Facebook
when people were experimenting with Facebook's news feed
to see how to affect people's mood
and then, you know, alleged suicides and debts would increase
during the results of this experimentation, right?
Right.
How do we know that's not also happening with TikTok
and other outlets and so on?
Yeah.
So absolutely there's an insidious aspect of AI.
that we should worry about that's outside of the I think so too I think it's killing us with a
whimper not with a bang love it it's just eating eating away at us sort of parasitically
quantum computers in the next like let's say to be conservative 15 years I will
I'm being highly considerative there will become powerful enough to completely make RSA
obsolete RSA encryption is the backbone of society right it's it's what allows you to
securely access your bank account to send messages you could reverse engineer that with
Exactly. That will happen. It is not a matter of if, but when. So you could double spend
Bitcoin. You could double-send Bitcoin. The whole, all of these, yeah, most of these
cryptocurrencies today will become obsolete because of quantum computing. Well, that's an interesting
sort of black swan event around crypto. It will happen, yeah, totally. And it's going to,
a lot of people get blindsided, caught blindsided in that. Absolutely. Interesting. Absolutely. And so
what happens when there are nation-state actors, right?
for people who are intelligent enough that can build quantum computers and suddenly the whole world's
information is exposed, right?
What happens if I can read your Facebook messages now that you've sent throughout your whole life?
How disturbing would that be?
So I think that that event alone will force society.
It's the apocalypse.
Or like force us to work together basically.
Because like everybody will lose their leverage, right?
At the same time.
Yeah.
Well, dude, thank you for doing this. This is a lot of fun.
Absolutely. Likewise, Jesse.
Yeah, thanks, Steve.
It was such a pleasure, man.
We'll do this again. We'll do this again. We'll do this again.
We'll definitely do this again. Dude in Miami.
Absolutely, yes.
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