Hal Puthoff, a physicist and former Stanford Research Institute scientist, pioneered remote viewing after Ingo Swann’s experiments revealed anomalies like Pat Price accurately describing classified Soviet facilities—validated by satellite imagery—while others predicted Nixon’s downfall via hidden recording devices. His CIA-backed program ran for decades, uncovering materials from over 10 recovered NHI craft, including Roswell debris with unreplicable alloys and properties defying known physics. Puthoff theorizes these craft exploit Einsteinian relativity, possibly using vacuum energy or quantum processes tied to consciousness, revisiting classified 1990s experiments with cryogenic tech. Despite past secrecy—like the 2004 Robertson panel’s dismissal—Puthoff now advocates for a controlled disclosure framework, citing whistleblowers and military reports (e.g., 2017 Nimitz incident) as proof of UAP’s reality, while warning against adversarial exploitation. With quantum computing and AI advancing, responsible transparency could unlock humanity’s future within a decade. [Automatically generated summary]
I was a ham radio operator as a teenager, and I went to vocational school.
I didn't think I'd ever go to college or whatever, but I got all involved in learning about...
Radio transmission and all that kind of stuff.
So I finally said, okay, I'm going to go to college and really concentrate on electrical engineering and physics and all that kind of stuff.
But the weird stuff actually began kind of by absolute accident.
At the time, I was involved at Stanford University, getting my PhD.
I was just doing cool things.
I'd invented a broadly tunable infrared laser, one of the first of its kind, even got a patent as a graduate student, and co-authored with my thesis advisor a textbook, graduate-level textbook,
Fundamentals of Quantum Electronics, published in English, French, Russian, and Chinese.
So I was on a cool roll, just doing the normal physics kinds of things.
But interestingly enough, once I was there writing a graduate-level textbook, I realized, you know, there's something I don't know.
And that is, what about consciousness?
What about living things?
I mean, is it still just atoms and molecules all the way down?
We just don't know about it?
Or are there some additional fields or whatever?
So it turned out I came across some publications by a polygraph expert who taught polygraph to the CIA and FBI and so on.
And one day on a lark, he connected his polygraph up to his plants and he saw signals coming out that looked like what he see out of people and then he decided to threaten the plant like
a person and he got a big response.
And so he then went on to connect up a couple of plants to polygraphs
And he would find that if he affected one, the other one would respond.
So I thought, okay, well, maybe this is some new fields that we don't include in our physics.
So I came up with what, for me, was just a pure physics experiment.
I was going to grow some algae culture, split it up, put half of it at a laser-linked site far away, and zap the local culture and see if it responded, and I could measure velocity propagation and so on.
So I sent that off to this polygraph guy, Cleve Baxter is his name.
And so he said, well, that'd be a cool experiment.
Well, here's one of these things where your life takes a left-hand turn, totally at random.
He goes to a cocktail party in New York City.
And there he runs into Ingo Swann, who turned out to be so-called psychic, famous artist, but a fellow that did remote viewing, so-called.
And so he invited him over to his lab and said, see if he could affect the plants and so on.
While he was there, he saw my write-up about the experiment I proposed, which for me is just a pure physics experiment.
And so he then wrote me a letter and said, well, if you're interested in the borderline between animate and inanimate physics, why deal with algae culture?
They can't tell you anything.
You should be dealing with somebody like me.
Well, I mean, I couldn't care.
Less about dealing with, quote, a psychic or whatever.
But attached to his letter, he had a big report that had been generated at City College in New York where he'd done some experiments where he would raise and lower the temperatures of sensitive temperature measuring devices across the lab.
And so I read that and I said, well, that's...
That's pretty interesting.
So just on a lark, by this time I headed over to Stanford Research Institute to do my laser work.
So anyway, I invited him for a weekend just to see what else he could do.
And of course I talked to all my physics colleagues and said, oh my god, these guys are all frauds and charlatans.
You better know what you're doing.
Well, it turns out that I had a great experiment for him because we had an experiment set up at Stanford.
That was a very sensitive quantum chip inside of electrical shielding, inside of magnetic shielding, inside of superconducting shielding, completely acoustically isolated from the environment.
No way anything on the outside could affect that little chip.
They were only looking for quarks and stuff like that.
So anyway, I brought him over to the lab.
I said, remember that thing you did with the thermistors there at City College in New York?
Well, this is sort of that.
Like that on steroids.
And so he said, okay, well, I'll see what I can do.
Well, it turned out he generated all kinds of signals in that little quantum chip.
And, of course, a graduate student whose life depended on this not being, you know, affected by anything outside said, well, maybe there's some bubbles in the hydrogen line or something, something.
But no, he was able to do it.
But what was most interesting...
And I asked him, well, how did you know what to do?
He said, well, I didn't know what to do, so I just looked inside.
Looked inside through all this shielding.
And he drew a diagram of what was inside there that had never been published.
And he said, well, this is when I put my attention on it.
But anyway, the reason I'm trying to get around to answering your question was that I then wrote this up and circulated around to other physicists, and pretty soon the CIA come landing on my doorstep and said, oh, have we been looking for you?
And I said, you know, why?
Well, they looked in my background.
They saw that I had between my...
Master's degree and PhD.
I'd been a naval intelligence officer at the National Security Agency.
I had lots of high-level clearances.
And he said, you know, we have a problem.
And they plopped a big report down on the desk about like that and said, look, the Russians have been spending millions of dollars at their best institutes trying to use ESP for espionage purposes.
We don't know how to evaluate it.
I mean, no scientist in America even believes there is such a thing.
And yet you did this experiment, and it looked like this guy could actually get inside this device and describe it and affect it.
And here you're at SRI.
We have lots of black projects here anyway.
So we'd like to check him out.
Can you bring him back and let us come and do some experiments with him?
By the way, we're hoping that we'll find this is just all BS, and we don't have to think about it, and that'll be the end of that.
So anyway, brought him back.
They spent a day hiding things in the boxes and envelopes, and he would describe what was inside.
And they were totally blown away, so they said, okay, we would like to give you a little project here, I don't know, 50 or 60K, and see what else he can do.
So anyway, that's how I got started on doing, quote, weird stuff.
And so, as many would know, that project ended up being very productive, and it went over.
More than 20 years and so on, highly classified level.
Well, maybe we'll get to that separately because I think the UAP stuff is kind of more interesting to start with.
But anyway, that's how I got started in weird physics, you might call it.
And then sort of like in Ghostbusters, well, if you got some...
And as we might discuss later, I've got some ideas about, you know, what some of the quantum mechanisms might be involved in that.
But anyway, as far as the CIA was concerned, they were most interested in this ability to see through shielding.
And they said, does that mean if we have all kinds of classified documents and a superconducting safe, the Russians might be able to, you know, reach in and see them?
That started a whole program when we found out that it was true, that we started out doing what you would think, you know, just hiding things in the next room and can you describe them and stuff like that.
But then he got bored.
He says, well, if you want to know what's in the next room, go look.
If you want to know what's in the envelope or the box, open it up.
So he said, well, you know, what do you have in mind?
He said, well, just send somebody out into the San Francisco Bay Area and I'll describe where they are.
And so that's how what we call remote viewing program got started.
We started doing experiments, which I got to say, I resisted this stuff every inch along the way because as a physicist, I had no idea how this could possibly be.
But nonetheless...
We began working with him.
Our lab director, who's always concerned about was there some kind of hoax between the subjects and the experimenters, he'd make up a long list and store them in his safe, and we'd go get an envelope out of the safe,
leave SRI, drive to wherever the envelope said, and he would give a description.
When you are experiencing this and you're initially very skeptical and you start seeing these results, what kind of a shift does that have in your worldview?
Because as a physicist and as a quantum physicist where I've written equations for all kinds of interactions, I had no clue how anything like this could possibly be.
And I'll be honest, I still don't really have a clue about exactly what's going on other than consciousness seems to be expandable out into the environment in a way that we don't usually consider could possibly be the case.
There are people who get into meditation and all that kind of stuff, but none of that was in my background, so I just found this a challenge.
It was only that the CIA was paying us to look into this that I kept going the next step, resisting every inch along the way.
To give you an example, along the way, there was a little bit of PR in the newsprint, newspapers about our experiments.
So we began getting people calling in and saying, well, I have some of that ability too and whatever.
And so one of the people that came along that way was Pat Price.
He was ex-Police Commissioner Burbank.
And he said, you know, when we were solving crimes, I would get an image of where the culprit might be hiding.
And it would turn out to be correct.
So maybe I have some of this ability.
Well, I had no reason to necessarily believe that.
But it turned out that right at that moment, we were being challenged by the CIA to...
Prove this wasn't just some kind of a hoax between the experimenters and the subjects.
And so they came up with coordinates, because as it turns out, when we sent people out to a site and Ingo or somebody else had to describe it, they would describe not only the site as being observed by the outbound person,
but also what was inside the building and what was on top of the building.
So we suddenly realized...
Okay, that person is just a beacon.
It's not that he's sending something back telepathically.
So once we realized that, Ingo Swann, in his never-ending challenge, said, well, just give me coordinates.
Latitude and longitude and degrees, minutes, and seconds.
And I'll look wherever that is and tell you what I find.
So, in fact...
Okay, I found that hard to believe also.
But we did a lot of experiments and started targeting on things.
Anyway, Pat Price shows up.
We do some local experiments, and he's doing very well as well.
And so, again, our CIA contract monitors were worried that there's some kind of, you know, trickery and so on.
So they came up with coordinates of what turns out to be right next to Sugar Grove facility, which is a highly classified NSA facility picking up Soviet satellite transmissions.
So I just, I had no idea what it was.
I mean, we always kept ourselves blind to what the target was, so no one could say we just gave him the data.
So Pat Price decided to, you know, to follow our instructions and go to those coordinates and say what he says.
And so he describes this place.
But as part of that, what he does is he says that he merged his...
Mind, whatever you want to say, into a safe and a whole bunch of words popped up into his mind.
So he gave this whole list of words.
Okay, fine.
So he wrote them all down, sent them off.
Pretty soon the entire law enforcement apparatus of the country landed on us and said, how'd you get this information?
This is highly classified project titles.
Do you have a source inside?
No, we were just doing this experiment.
That's what he got.
And so eventually, 20 years later, you can find the paper that was published by the CIA about what a deal this was.
And so anyway, at that time, we were at a point where we were about ready to get the next year's contract.
And we had a deputy director, John McMahon, said, OK, well, let's not waste it on our sides, for God's sake.
Do a Soviet site.
And so they gave us coordinates of a Soviet site.
Turned out to be an R&D facility at Semi-Palatinsk in the Soviet Union.
And so we targeted Price on that.
He turned out to be a really good remote viewer, along with English Swan.
And he described this giant crane that rolled over the top of a building.
I mean, it sounded like science fiction.
I've got some examples here of the drawings of that.
And so it turned out that from satellite imagery, what he drew was correct.
And so that finally started, okay, this stuff is real.
It can be used.
Let's go to work with it.
So that's what started the whole, you might say, Espionage-oriented SRI program on remote viewing.
It went for, I don't know, like 23 years or so on.
What are the meetings like when you're explaining this to the CIA and you're showing them results and you've got these, you know, hard-nosed individuals who are pretty rational trying to figure out what you're saying?
This episode is brought to you by Visible.
Now you know I tend to go down a lot of rabbit holes.
I want to know everything about everything.
And if you're like that, you need wireless that can keep up.
Visible is wireless that lets you live in the know.
It's the ultimate wireless hack.
You get unlimited data and hotspot, so you're connected on the go.
Plus, Visible is powered by Verizon's 5G network, meaning fast speeds and great coverage.
And with the new Visible Plus Pro plan, you get premium wireless without the premium cost.
And the best part, it's all digital, no stores.
You can switch to Visible right from your phone.
It only takes about 15 minutes.
And then you manage your plan in the app.
Ready for wireless that lets you live in the know?
Make the switch at Visible.com slash Rogan.
Plans start at $25 a month.
For the best features, get the new Visible Plus Pro plan for $45 a month.
Terms apply.
See Visible.com for plan features and network management details.
There are really basically two levels of response.
For example, some of the early work when we went to brief, we had 10 or 12 people and we're talking about the work.
Pretty soon a guy in the back of the room jumps up and he says, I know what this is.
This is some kind of PSYOP test of our gullibility and I want you to know whoever's putting this out, I'm not buying it.
And he stormed out of the room.
So that was one response.
But there's a second response we got which turned out to be interesting.
At a certain point after we had done a number of years of successful work in doing the remote viewing.
We had to keep briefing higher and higher, as you can imagine.
I hated briefing higher because if you brief a high-level guy and he says, oh, come on, this is nonsense, this is BS, that's the end of your programs.
So I got it up to a point where, for example, I briefed Bill Casey, who was director of CIA under Reagan, and we had 45 minutes with him.
And so I went through stuff like I've been describing for 45 minutes.
He got so entranced with it that he dismissed the rest of his afternoon calendar, and we spent five hours briefing him on that.
So there was this funny thing where a certain level of people would just, oh, this can't be.
And then really high-level people seemed to be...
More open to it.
So actually we came up with a hypothesis and that is, okay, people who make it to the top of the food chain might be people who at some level inside themselves are, you know, they're always making decisions based on insufficient information and they end up making the right decision.
That's how they got to where they are.
So maybe this is some aspect that's at least at the unconscious level happening.
All the time.
Well, that finally got put to a test because there were some parapsychologists who did some experiments with a meeting of CEOs of, I think it was 67 CEOs of major corporations and had them try to guess the numbers that were going to be generated on the computer the next day.
And so they did that.
And it turned out that those who scored...
Quite positively, significantly so.
When we interviewed them, it turned out they were the people who had the businesses that were really doing well.
And the people who scored poorly had businesses that were kind of failing.
So these investigators would ask them, well, you know, what are you using?
Do you use ESP or something?
Do you have some glint of the future?
He said, no, no, no, no.
I don't believe any of that nonsense.
But...
I realize that when I trust my gut instinct, I'm usually right.
So anyway, that sort of leads to the idea that this is a broadly available phenomenon.
Do you think this is an emerging aspect of human consciousness or do you think that this is something that maybe we developed a long time ago but lost because of communication, because of the written word,
because of our ability to express ourselves, that we stopped communicating with the mind?
Interpretation is the correct one because probably when you're out in the jungle and there's a tiger coming down the trail that you don't know about quite, it would be a thing that could really help you exist and survive.
But once we get into language and technology and so on, that sort of...
Nonetheless, we found...
I'll tell you what was the most mind-boggling thing in the whole program.
Was the following.
We had a few people who did really well.
So, of course, CIA wanted to know, well, we'd like to find people in CIA who could do this, so give us a full medical roundup of these people.
So we got a full medical, including seven-layer brain scans.
And they came back and said, well, these are just normal people.
So, oh, well, maybe it's psychological or neurological or whatever.
So they did all those experiments.
And they said, these are just normal people.
So we wondered, well, does that mean that normal people could do this even if they didn't know about it?
So about that time, we said, okay, well, let's just bring in some people from SRI labs who never thought about...
ESP, never thought about any of this stuff.
So I remember we had a woman, Hella Hammond, and we asked her to come volunteer for an experiment.
She said, what kind of experiment?
She said, well, it's sort of like an ESP experiment.
She said, give me a break.
I don't believe in that stuff.
She said, okay, but do it anyway.
And so one of the first experiments we did with her, and we have a wonderful diagram of what she did.
We sent somebody out by our usual random protocol to an overpass over a freeway that's all fenced in with a very interesting structure, and she made a drawing of all that and said,
you know, there's this kind of trough up in the air, but it's got holes in it, so it couldn't carry water.
There's something going by really fast.
I mean, she really nailed it.
And so we got the idea, and that was the biggest discovery in this whole thing, was that apparently, as with, say, athletic ability or musical ability, there's a bell curve.
And you got superstars at one end, you got duds at the other, but to some degree, anybody could do it.
So that had a lot of...
Outcome later on in the program when finally, to give an example of a real-world result, a Soviet plane went down somewhere in Africa.
That's all we knew.
Somewhere in Africa a plane went down.
So Stansfield-Turner, who was Carter's CIA director, knew about our remote viewing program.
And so he said, well, you've got these, quote, remote viewers are supposed to be so good.
Why don't they find the plane for you?
So, in fact, we had a remote viewer at our lab, and at that time we were working with Wright-Patterson Air Force Base, Foreign Technology Division.
They had a remote viewer.
So we targeted these two remote viewers.
All they knew was the plane went down somewhere in Africa, hundreds of thousands of square miles.
And to make a long story short, they described how it looked.
And put an X on the map that was three miles from where the plane landed.
We were told that would never be revealed.
To the public.
But it turned out that after Carter got out of office, he was giving a speech in Georgia someplace.
And somebody said, well, anything happened while you were present that was really strange?
He said, oh yeah, the Soviet plane went down in Africa and it was full of electronics and we wanted to get it and nobody knew where it was and satellites couldn't find it because of all the vegetation.
But we had some remote viewers, so-called.
They pinpointed where it was, and we went in and got it before the Russians could find it.
So, I mean, the real-world consequences came out of this stuff.
There is a method, and it's different from what you might think.
You might think you would say to somebody, okay, we've got somebody to decide.
Kind of imagine where they are and see what it looks like and tell us what you find and all that kind of stuff.
They're usually wrong when they do that because their imagination comes into play and they make up something or whatever.
But what we found out in the research, it took years and a lot of trials, was that you get a visceral response.
It's not that you necessarily get an image.
So, in fact, we told them, you know, if you get an image, just put it down the right-hand side of the paper because it's probably wrong.
Instead, just kind of put down your feelings as you get into the site.
And so, you know, if it's like water, they might...
Do waves, or if it's a mountain peak, they might, as Jacques described in one of your previous broadcasts, a mountain peak, and they just feel like drawing something like that.
So bit by bit, the process is very much a visceral feeling process, and so the training procedure has them sitting with pads of paper and just making sketches and drawings and not trying to interpret what it is.
And also being very not in a rush about it.
It's sort of like you've got a door and you drill a hole through and then drill another hole through and another hole through and then finally the door crumbles and then you've got a pretty good feeling for what the sign is.
So the process that we use to train people involves this multi-stage process where they're to go by feelings, colors.
Flashes of things.
You see a flash of a piece of metal, don't try to turn it into a car or a bicycle or whatever.
So anyway, it was a whole training procedure that we developed.
And eventually when we briefed the assistant chief of staff for intelligence, assistant director of intelligence for the Army, they said, okay, well, then we need to have our people get involved in learning how to do this.
And so they sent...
Army intelligence officers.
They picked out a bunch of them and said, hey, you've just volunteered to become a psychic spy.
And they said, well, okay.
And they sent them out to SRI.
And we ran them through this step-by-step training procedure.
And they learned to do really, really well.
I mean, Joel McMonegal, who anyone who follows the literature, is known to be a brilliant, excellent remote viewer.
I'll give you an example.
One time he said, I mean, we trained them, and so they learned to do really well.
We set up a whole program.
And he said, okay, there's this site in the Soviet Union, and they're making this unbelievably giant submarine.
And it's made out of titanium or something.
I mean, it's bigger than any submarine that anybody's ever heard of.
And it's strange because the missile silos are on the top rather than along the sides and so on.
He gave this whole description.
Of course, at that time, we were briefing all the way up to National Security Council, and so they looked at this.
This is nonsense.
But about a month later, out rolls this unbelievably giant submarine, the Typhoon-class submarine, the largest submarine ever made.
Indeed, there are his sketches and a lot of description that went along with his sketches.
And there's a submarine on the right.
And so finally the people of the National Security Council said, okay, we better start taking this seriously.
So to make a long story short, he eventually, Joe McMoneagle, got a National Merit Award for over 200 great viewings he did for...
CIA, National Security Council, FBI, I mean, you name it.
This episode is brought to you by The Farmer's Dog.
If you're anything like me, you love your dog.
You want what's best for your furry pal.
But figuring out what that is can be a real headache.
There's a lot of misinformation out there, especially around dog food.
Take kibble, for example.
Almost everyone has probably fed their dog kibble at some point.
But if you do a little digging, you may find out how ultra-processed it is.
Luckily, there's a better option for you out there, real food from people who care about what goes into your dog's body, like the farmer's dog.
They make fresh food that's so simple, no magical or miracle recipes, just meat and vegetables, lightly cooked, complete and balanced for your dog's needs.
And it's all developed by board-certified nutritionists with the same safety standards as our food.
To make the switch, you'll see a massive impact.
It can help your dogs be healthier, happier, and more energetic.
And unlike kibble, which comes in a giant bag with vague serving suggestions, the farmer's dog food is delivered in packs, portioned for your dog.
It makes it easy to help them maintain their ideal weight, which is one of the biggest predictors of a longer, healthier life.
Look, no one, dog or human, should be eating overly processed foods for every meal.
And it doesn't matter how old your dog is.
It's always a great time to start investing in their health and happiness.
So try The Farmer's Dog today.
You can get 50% off your first box of fresh, healthy food at thefarmersdog.com slash rogan.
Plus, you get free shipping.
Just go to thefarmersdog.com slash rogan.
Tap the banner or visit this episode's page to learn more.
Offer applicable for new customers only.
So this is still kind of a mystery even to you.
Even someone who has studied this for this long, you know that it works, but you're not exactly sure how it's working.
I mean, when we, as physicists, we hate to say, oh, don't have a clue.
So...
Well, we now know there's so-called quantum entanglement, which is that things seem to be connected at a quantum level across great distances.
And so the easy answer is, well, it must be quantum entanglement.
But, you know, that's just words.
It doesn't really tell us how it works.
But to give you an example, we wondered how far you could go.
So we did an experiment, again, with Ingo Swann, who was such a...
A really top-level remote viewer to view Jupiter, planet Jupiter, before the flyby.
Before the NASA flyby.
And so he did.
And he described Jupiter the way anybody might, you know, red spot and all that kind of stuff.
But he said, but there's a thin ring around Jupiter.
I wonder if I went to Saturn by mistake, but I really see a ring around Jupiter.
Nobody knew about any ring around Jupiter.
Carl Sagan happened to come by in the lab and said, oh, what do you think of this?
We got this result.
He said, ring around Jupiter.
That's nonsense.
But when the NASA flyby finally got there, it turned out there was a ring, a small ring around Jupiter.
And so we got that in publication in a book we wrote about all this stuff.
Before it was known in the scientific community.
So that's what we find out, that apparently even distances is not a big deal.
The other thing we wondered, I can tell you what it isn't.
We thought maybe it was brainwaves.
The Russians came up with an idea, well, brainwaves, low frequency, long wavelength, they can seemingly...
Get through some aspects of the environment.
So we came up with a series of experiments, and one of them was, okay, let's put our remote viewers on submarines, take them into the depths of the ocean, because it turns out seawater is highly conductive,
and so even at low frequencies, even at brainwave frequencies...
It would be a complete shield for that.
So we piggybacked on somebody else's experiments, Stephen Schwartz's experiments using remote viewers to go find archaeological wrecks and shipwrecks and so on, which turned out to eventually be a successful experiment.
But anyway, we got to do two experiments.
We got pristine results, even with them under there, under the ocean water.
So we know it's not ordinary electromagnetic.
Functioning.
So we can strike one thing off the list, not that we know what to put on the list in its place, other than, you know, it's got to be some new field, some quantum aspect that we don't understand yet.
I'll give you another example of the skepticism that we got.
And by the way, I can't blame him.
We had some psychologists at SRI, and they said, you've got that stupid ESP experiment stuff going on, and this is going to ruin our reputation.
People think that we're a nonsense place, and so that's hurting our reputation.
Of course, they didn't know it was a highly classified CIA program, so anyway.
So our director said, well, what do you think?
I mean, how would you know if this is?
False or whatever.
And he said, look, make a list of all experiments, places that have been gone to as targets, and then give us the transcripts that were generated for those viewings, and don't tell us which ones go with which ones,
and we'll try to rank them for each place.
And so they did that, much to their chagrin.
Seven of the nine were first place matches in a nine experiment series.
I'll give you another example of...
And by the way, I can't complain about the skepticism.
I mean, even as we're doing all this, we haven't lost our skepticism about how could this be.
But we finally got into a spot where...
The only thing that was secret about this program was that it was secret.
People heard that we had these people coming in and doing experiments, but we weren't publishing anything.
So I went to the CIA contract monitor and said, you know, you've got to let us publish something because the only secret about this project is there's a secret project.
So if we publish something, that will handle that.
And so in this case where we got permission to publish something, since we're engineers, Russell Targ, my colleague, and I are engineers and physicists, we wrote it up for the...
Proceedings of the IEEE, Institute of Electrical and Electronics Engineers.
This is an engineering journal where we had published technical papers.
So I said, well, we have a better chance there.
Sent it off to them.
The editor was head of communications at Bell Labs.
And he comes back and says, well, I don't know.
And we said, why?
Are you getting bad reviews?
And he says, well, actually, I'm getting good reviews.
But one really heavy hitter just gave me a one-sentence review.
Saying, this is the kind of thing I wouldn't believe in, even if it were true.
I mean, it was really, you know, the tiniest flip of a coin that that happened.
So what that means is, for me personally, is that even though I had no interest in all that kind of stuff, this totally random event happened.
And then once I built up a reputation for being willing to take on things that are impossible, Then that's why when the UAP, the UFO issue, kind of rose up again, who are you going to call?
Government affected, policies be affected, you know.
Politics would certainly be affected.
And then for each item, we had to go give it a score from plus nine to minus nine as to how intense the effect would be and whether it's positive or negative.
So anyway, we broke up into groups, and our group had our list of eight or so.
So we went down our list, and it turned out that...
We ended up getting net negative numbers.
And let me tell you why you can get negative numbers.
One of the things down toward the bottom of the list, and we really got into the weeds, was, well, suppose materials from a crash retrieval of a non-human craft was given to Corporation A,
but Corporation B didn't get...
Any samples.
And then years later, Corporation A is making lots of money based on what they got.
Meanwhile, Corporation B has gone bankrupt.
And then they find out they were excluded.
Well, they're going to end up suing the corporations, suing the government.
I mean, it really gets gnarly when you get into the weeds and into the details.
As it turns out, with our group of eight or so, we said, you know, we get a negative number.
Well, it turned out that all the groups got negative numbers.
So the outcome of that exercise was, if you're thinking about disclosure, forget it.
By the way, in the remote viewing program, one of the things they told us, look, you guys that are running this program, don't you ever think about remote viewing yourself.
We learned in the LSD days that if the experimenters get involved in the subject they're researching, they lose their objectivity.
And don't think you can sneak away and get away with it because we'll get you on the polygraph.
In fact, I have a great example of that, and that is Edward Teller, father of the H-bomb.
Involved in the Manhattan Project, you'd think if anybody wanted to keep secrets about national security, it would be him.
One of the strongest statements he made, which actually was kind of a driver in my shifting my viewpoint about, well, should we come out with this or not?
He said, you know, in exploring nuclear energy, we had the Manhattan Project, highly classified.
But nonetheless, we and the Russians kind of marched along step by step.
But in electronics, we didn't classify electronics, circuit boards and all that kind of stuff.
And we took off like a rocket and left Russia in the dust.
So his viewpoint was that having more openness, even in national security areas, is a better bet.
And so that made me think...
Even though I'd been part of, as it turns out, decades-long, highly classified, not-for-the-street, UAP investigations, that sort of affected my thinking about it,
and I became more open.
To the idea that, you know, we should do that.
But the way I got actually more officially involved was that, as it turns out, in 2008, I think it was, Harry Reid, who was at the time Senate Majority Leader,
Daniel Inouye from Hawaii, Ted Stevens from Alaska, they're part of the Gang of Eight.
So they get better briefings than most people on what's going on beyond the scenes.
So at that point, you might think, well, UFO stuff, I mean, that's all dead.
Let me give you a little background first.
And that is, you know, back in the 50s and 60s, we had Project Sign, Project Rudge, Project Blue Book.
And then they had the Condon Committee at University of Colorado examine the area and say, he came out with this thing saying, there's nothing here.
It's not worth the Air Force spending any time on it.
Actually, the Condon Report, if you read it, there's a deep report showing all kinds of reasons why this is real.
And then there's the foreword, which most media read, in which he said, oh, nothing here.
Don't worry about it.
So after 1969, which is when that report came out, if you called Air Force Public Affairs off and said, well, what's going on with UFOs?
Oh, no, no, we give up all that stuff back in 1969.
The truth of the matter is that the very memo that canceled Blue Book by General Bolander had down the fine print, but anything that might affect national security, we should keep track of.
So now we come up to, you know, 2017.
These senators who knew that there was still stuff going on decided there should be a new program.
And so they asked the top physicists at DIA, Jim Lekatsky, who was one of the top physicists on propulsion and rocketry and so on, to put out a request for proposal.
And so that went out, and so actually Robert Bigelow picked it up.
And he said, okay, we'll do this.
And so he then got the program, and since I'd been involved with Bigelow, he asked me to be part of the program.
So that's when I got, you might say, officially involved in really digging into the issue.
So, but when they came up with the idea we should do another deeper dive into this, and by that time I was, you know, I mean, as a physicist.
I mean, through the years.
I mean, I was a Star Trek fan and, you know, Star Trek fan and all that kind of stuff.
And as a physicist, I would hear about these UFO sightings and so on.
So I always wondered about, you know, how can this, you know, could somebody really have any kind of propulsion that would look like that?
So anyway, so when this program got set up, It turned out my particular assignment was, okay, let's look at all the physics and engineering that might be behind this stuff.
And by the way, we will arrange for you to get access to some materials.
Okay, fine.
So that was my tasking, and so I said, okay.
So I can't get into a lot of detail, but I did do a lot of back and forth with some aerospace executives about getting access in case they had any materials and that kind of stuff.
So they finally said, no, if that were the case, it would be too compartmentalized.
We can't share this.
Even though you have an official program, you've got Top Secret, SCI, Gamma, HCS, you've got all these clearances.
But if we had materials, it would be too highly classified.
So anyway, the second place to go then was, okay, they're not going to share their materials.
I'm going to almost assuredly have them.
Suppose they had shared them.
What would we have done?
Well, we would have gone to subject matter experts all around the world.
We'd give them some materials.
We'd say, you know, this came from a Russian sub or, you know, whatever.
Give us your best output and so on.
So I said, okay, since we're not able to get materials and share them.
Let me go to all of the subject matter experts that we would have gone to and say, we're doing a survey for Bigelow Aerospace.
He wants to know where will your field be in the year 2050.
So we figured, okay, we'd get the best sort of assessment of possible futures for their fields.
I realize you probably don't have immediate access to this, but just to give you an idea, some of the papers that we got by going out to these people, and you'll see how serious we were.
A-neutronic fusion propulsion, superconductors and gravity research, positron aerospace propulsion, warp drive, dark energy, extra dimensions, advanced nuclear propulsion.
So this is based on projections from where technology currently sits to, if you extrapolate, where it's going to be in 2050 based on what they're working on.
How did they – this is the conundrum that if they did disclose and the companies that weren't given access to these materials did fall apart and then the companies that got access to these materials advanced and had spectacular businesses, how did they decide?
Just assuming you would have something, how would you decide?
Was it based on relationships?
Like knowing that someone could keep a secret?
Because you're dealing with outside the government now.
Presumably, if you have a defense contractor, that's an independent company.
Not necessarily, even though they work hand in glove with the government, they're not necessarily a part of the government.
Which you may have heard of, that Lou Elizondo ran, sort of picked up there to keep the ball rolling forward.
And now it's been revealed, by the way, only recently, that when the funding dried up, it dried up for the reasons you might think of, and that is it was so highly classified that when congressional statements came down that,
okay, we need so much money for this, It didn't actually describe it.
It was just advanced propulsion and all that kind of stuff.
So another group picked up the money and said, oh, well, we're working on propulsion things, but it wasn't the real deal.
And so what do you do at that point?
Do you go, now, wait a minute, this was really for this?
Well, then you'd be revealing what this was really for.
So anyway, that sort of ended that way.
But anyway, so based on that, we then, as a group...
Went to, as it turns out, the Department of Homeland Security to set up a whole new program.
And it was going to be a special access program.
It was under a name, which can now be revealed because Aero, the Advanced Anomalies Aerospace Resolution Office, has revealed it.
It was called Kona Blue.
And we built up a stack of documents that would go to the ceiling here about what needed to be done, what we were going to do, how it should be done, who should be involved.
At this point I'm convinced that there's a real phenomenon.
I mean, you know, how far can I go?
I mean, I can say I interacted with, for example, Dave Grush that you've had on your program before, Really a high-level intelligence officer.
People in the public can hardly have any idea how high a level intelligence officer he was.
He prepared briefings for the president.
He was a top UAP investigator for NRO, the National Reconnaissance Office, and then transferred over to NGA, National Geospatial Intelligence Office, and so on.
And so in that role...
He was asked, he was an official, part of the UAP task force, asked by Jay Stratton to find out what's going on behind the scenes at these super classified levels.
And he did.
And so that's why, you know, he eventually came out in that August 2023 congressional hearing under oath saying, yep.
I've talked to more than 40 people who are directly involved in the program.
Well, I know Dave.
I know many of the people.
I know many of the programs that he's involved in.
And so there really is something to it.
And it's only a matter of time before it comes out.
I don't think you can put the toothpaste back into the tube.
Because the problem is there's an embarrassment of riches.
These craft...
You know, which in the old days, you know, a farmer in the fields, someone streaking across the sky, and, you know, I don't know what to think.
You know, you could sort of blow it off.
But because our own detection equipment has really marched up into unbelievable sophistication, and so now we have these really advanced sensor systems, FLIR, forward-looking infrared radar,
high-quality radars.
Satellites, Ratcliffe has admitted that satellites have picked up evidence of these craft.
And these craft have interfered with military exercises, as we all know from, say, the Nimitz and the Gimbel and the GoFast videos that made it out into the public in 2017.
So it's really out there now at this point that there's a reality here.
And, of course, in the program, we interviewed the pilots about their experiences and so on.
And so you can't blame a pilot.
He says, look, this thing was at, you know, 80,000 feet or whatever when he first detected it.
Suddenly it's down there right above the water, and then it takes off and does a right-angle turn at Mach 3. You know, this stuff is just way beyond our physics.
Of course, to a physics nerd like me, it's like, yeah, now wait a minute.
In that series of papers, I showed you the 38 papers, by the way.
There's a little side story there.
It's interesting.
And those 38 papers were then posted.
None of these people who generated those papers had any idea it had to do with ETs or UFOs or whatever.
They all went up on what's called the JWICS server.
It's a classified server for the Pentagon.
And intelligence officers and aerospace contractors could get access, but nobody in the public could.
And usually those things go up, and they're up for a little while, a month or so, and they take them down.
This was such a popular set.
This 38 Pavers, such a popular set.
Everybody screamed every time they tried to take it down.
And so it was posted there forever.
But eventually, through Freedom of Information Act and so on, most of those papers have been released.
And I was concerned that, oh, my God, these guys are all going to call me up and say, what?
You didn't tell me this had anything to do with ETs or UFOs?
But actually, nobody seemed to complain about it.
Back to the question that you mentioned a little earlier, though, about, you know, what's the source of this?
Like I said, it's an embarrassment of riches.
There's so much observation.
You know, the idea that it may be a scout coming by from some other planet and checking us out and heading off or whatever.
I mean, there's much more than that.
And, of course, as you know from interviewing Jacques Vallée, He dug into literature and found out, you know, you can go back millennia and see descriptions of exactly what we're talking about today.
So, as far as where they come from, what they're doing here, I myself have written a paper called Ultraterrestrials, where I try to cover the gamut.
And I cover everything.
Yeah, they could be...
Spacecraft from some other galaxy whipping through here.
Or maybe there's some Atlanteans left over from eons ago, and they're just kind of hiding out in the seabed or in some mountain range someplace.
Or maybe some ET group showed up here 1,000, 2,000, 3,000 years ago, and they're hiding out with some bases locally and so on.
And, of course, we have a fellow by the name of a professor by the name of Masters who thinks that, well, maybe it's time travelers from the future coming back.
And then there's the whole idea, since physicists like to talk about additional dimensions, you know, maybe they come from another.
So anyway, then in my ultra-terrestrials paper, I list every one I can think of and say, you know, we should be exploring all of these.
So at this point, I would say...
We know it's NHI, non-human intelligence, but it's not clear what the source is.
Maybe at a higher level of classification than I had access to, maybe it's known, but right now I'd say we don't know.
I know it's hard to believe that some of this stuff could possibly be real.
Here was a real game changer for me.
One day, Pat Price, during the remote viewing program, came in the office and he said, I got bored last night, so I started looking around and I decided to look at the Oval Office.
And as I kind of...
Did my way around the Oval Office.
I realized there's something in the Oval Office that will harm him and he will not get through his second term.
And I'm thinking to myself, oh my God, you know, I have to report that to the CIA contract matter, which I did.
And so they sent a team over looking for, you know, hidden microwaves, hidden toxic substances.
Well, they didn't come up with anything.
Of course, we now know from history, it was the tape recorder that did him in.
And he couldn't make it through his second term because he...
And so interestingly enough, when he reported that, they said, oh my God, that means Spiral Agner will be president.
Because he was the vice president.
And he says, no, he goes first.
Now, it turned out he did go first because of some money laundering scheme.
So when I sit down and try to say, okay, what are the statistics of having somebody see that a president is going to make it through his next term and his vice president is not going to take over because he goes first?
I mean, the odds of that, I mean, there's just no doubt that that means it's really something.
Now, one thing you may be surprised to learn, you've asked me from time to time, well, you know, what did I think as I'm facing into all this stuff?
We, obviously, as physicists, think about time going forward in a reasonable way.
And as I mentioned, the Princeton lab...
Got involved.
Robert John at Princeton was very good in quantum theory and so on.
And he knows that in quantum theory, time is kind of a slippery slope.
You know, we have the space-time metric and the possibility of maybe seeing something in the future or something in the past.
And so he did a series of remote viewing experiments very much like what we were doing.
Sometimes he would have somebody go to a site and then wait a week and have somebody describe where the person went.
Or he might have somebody describe where a person went, but the person didn't go until a week later.
And so he did a lot of experiments, which, by the way, were good enough.
He also got it published in the Proceedings of the IEEE, Institute of Electronics Engineers, a couple of years after our paper, like 78 or so.
And so it turned out that the results, either looking a bit into the future, a bit into the past, the results were just as good.
So that sort of helped solve another problem for us because we were always, I mean, I can't blame the skeptics coming forward.
In fact, our favorite phrase is, as far as remote viewing goes, there are two outcomes.
People investigate it, know it works.
People don't and know it can't.
So anyway, a big thing that we always got pushed on was, well, if these people are so psychic, why aren't they rich?
Why aren't they at Las Vegas?
Why aren't they doing silver futures or whatever?
Well, it turned out I had a chance to test that because, as it turns out, my wife, Adrienne Kennedy, was on the board of a new...
Grammar school that was being set up in the Bay Area where we were at the time.
And so I was trying to raise money because they were about $25,000 short.
And so I went to a wealthy dentist I knew of and said, you know, would you mind giving $25,000 for this school?
It's just being set up.
We're short.
And he says, no, wait a minute.
I know who you are.
You have that ESP program over at SRI, don't you?
And I said, yeah.
He said, tell you what, I do silver futures.
If you can get your ESP people to tell me what's happening each day, the next day, in silver futures, I will follow what you tell me, and I'll bet on it,
and see if I make money based on that, and tell you what, whatever money I get, I'll give your school 10% of what I make.
And don't worry, if I lose money, I won't charge you.
So anyway, that was interesting.
Well, by now in the program, we recognize that, okay, there's the bell curve, sort of anybody can do it to some degree.
So I simply went to the board of directors of the school and said, we're going to go into silver futures to make our missing $25,000.
But I'm not going to ask you what you think the market's going to do the next day because that will depend on what you've read or what you hope for or whatever, whatever, whatever.
We're going to do something different.
I'm going to pick a couple of objects.
Objects that are very different from each other.
I'm going to label one of them, mark it up.
I'm going to label the other one, mark it down.
And I want you to describe to me today the object I'm going to show you tomorrow, which will depend on what the market does.
And so, okay, and for a crash course, I gave him this.
Shortened version of how, you know, don't try to image it, just try to get, it's a visceral thing, how do you feel about it, what's the sort of texture of it, and so on.
And, Jamie, can you pull up that first of the, it shows the wooden figurine and the tape measure?
If you could show that, yeah.
So on a given day, I have two objects, and of course they're different as they can be in case you get a lousy description or whatever.
So on a given day, that's a couple of objects I've picked out, and I labeled the one to myself.
It turns out that an Army person said that his grandfather had been involved in picking up debris from the Roswell crash.
And so he sent it, of all places, he sent it to Art Bell.
Of the radio podcast, the great Art Bell.
So Art Bell turned it over to Linda Howe.
So she's got it.
So she said she'd make it available and so on.
So about this time, I had already had my viewpoint shifted, as I say, by Ed.
Edward Teller about, you know, we should have more openness going on.
And so, in fact, Tom DeLonge came along and, you know, the punk rock Bleak 182 and said, you know, we should be...
By the way, this is before even things came out in the New York Times in December 2017.
He says, "You know, I've been talking to people at some aerospace corporations and they're saying how hard it is to get students to do their engineering and come to work for us." And so he said, "Well, you know, if there's anything to quote the UFO
area, you know, maybe it could generate some interest that way." And so, long story short, he got Jim Simivan, now retired high-level person at CIA, got
There's no obvious proof that it comes from out of our solar system because there are various isotopes that would be different if it came from some other solar system.
So that would be the first thing you'd look for to say, oh, this really is ET.
So that didn't wash.
The second part, though, was a little more interesting, and that is these layers of magnesium and bismuth, I mean, those are the size of a human hair, some of those layers.
And they said, well, we can't find any evidence in the history of development of materials, of materials like that, and can't even imagine why anybody wanted to make it.
So it's just, it's an anomaly.
So, no proof that it's ET, but one of the things we did do, he says, okay, well, how hard is it to make something like this?
And so we got an aerospace corporation to say, can you bond Mismuth and Magnesium together, you know, sort of like what we see in this sample.
Well, they got two layers bonded, cost them over a million dollars, broke down their instruments to do it.
So this is something that is of terrestrial origin in terms of materials when you measure the isotopes, but it's of a construction method that's not currently available.
Well, I guess it gets frustrating even for, I mean, the compartmentalization in this area is really obscene.
So you can have people sitting at this desk and someone else sitting.
In that chair.
And I can't tell him what I'm working on.
He can't tell me what he's working on.
So that's our going forward with this is very, very slow and not opportune, I would have to say.
And, of course, we have data.
Can't go into detail.
We have data about crashes in other countries.
So it's really clear that we're not the only ones on the planet.
So that's something to be concerned about because, for example, here we have our capitalistic competition, aerospace corporations, electronics corporations, all being very hushed up and not sharing anything.
So that's part of what's behind our not revealing what we've learned because there might be some aspect that we've learned which in principle you'd think, well, you could reveal, but it might be the missing piece that some potential adversary said,
oh, that's what we've been missing.
Right.
So even though, generally speaking, I'm of the feeling that there should be more disclosure, I'm also very tight on anything that could be potentially helpful to an adversary in this area.
We're not going to reveal that would be a mistake.
unidentified
How do these things keep crashing if they're so good?
Yeah, so in fact, maybe some of them are donations to help us accelerate our forward motion.
Maybe they donate something here, something in China, something in Russia, and see who is best at moving forward, just as part of their ISR evaluation of this.
I mean, let's face it.
We've had, as is known in the public, we've had UFOs come over our missile silos.
One at Malmstrom Air Force Base that Salas has talked about, Bob Salas.
They turned off all of our missiles.
There's no way it could be launched.
In Russia, there's even a worse case.
They started the launch sequence in Russia at a missile silo, nuclear missile silo.
And the people at the location could not stop it, could not turn it off.
They're friendly and benign, and they just want us to know that if we get too frisky down here and think about having a nuclear war, they can stop it.
Or they might not be benign.
And the Armada is on its way, and they just want to test that they can stop our use of nuclear weapons against them.
So it's, from a security standpoint, from a DOD standpoint, from an intelligence community standpoint, you always have to have the worst scenario in your mind.
Well, I would imagine from a security standpoint, it's a nightmare, because you're not secure at all.
If something can fly over your airspace and you can't do anything about it and it can shut down your missiles or turn them on, you're in a very strange situation.
So there's a lot, I mean, it's still a big area that needs a lot of...
And interestingly enough, even though this has been a tinfoil hat crowd kind of thing up until around 2017 when that New York Times story came out, suddenly that really made a difference because the people that were coming on board,
that there's something real here, were people like Senator Harry Reid and other senators and so on.
And so that sort of broke an open that, okay, there really is something here.
And so as a result of that, that's how some of these programs have gotten pushed forward and reignited.
Generator, the thing that powers the craft that Lazar talked about.
What was your take on that, this idea that it was element 115, that when it encounters high radiation, it has some sort of an anti-gravitational effect, some warp effect?
So in general, it was known and predicted that there was an island of stability, as we call it, on some of these higher elements in the periodic table that are beyond uranium and so on.
But really no data predicted as to what their lifetimes would be.
And so element 115 is in that bunch.
And when he first discussed it, it hadn't been seen yet.
But eventually that element was detected, although the version of it that was detected had a very short lifetime.
But, of course, there may be some other isotope of that element that could have a long lifetime.
Who knows?
So it's just hard.
But his description of the anti-gravity effects and so on, that's an area that is well described as what you might expect.
As it turns out in that series of 38 papers, one of my own papers, That I provided was one called space-time metric engineering.
And when the pilots came to me and said, you know, drops down, takes off, right angle turn at Mach 10, you know, this is way beyond our physics.
And I said earlier, no, I think it's not beyond our physics, it's beyond our engineering.
But what I did on the physics level was...
All of our electronics that we have here, for example, this microphone, the recording that you're making, and so that's all based on electromagnetic kinds of technologies, all of which come out of Maxwell's equations.
Maxwell's equations, Clerk Maxwell, way back in the 1800s, developed the equations for electromagnetism, and basically any kind of electromagnetic device, you name it, Wi-Fi, Whatever.
It can be traced back to this equation.
So what I said to myself was, okay, we have these apparent craft operating with this unbelievable kinds of activity.
Is there any way to account for that in our physics?
Well, it turns out.
So what I did, I took a sheet of paper, and the left-hand side of the paper, I wrote down all the weird effects that have been claimed.
You know, right angle turn at Mach 10. I got close to the craft and suddenly it wasn't the same size as it seemed to be when I was further away.
It was a certain color.
But when I got close to it, it was a different color.
All these weird things.
To me, the weirder the better, because if somebody was just making up a BS story, they want it to sound rational.
So you don't come up with things like, well, I got in the craft, five minutes went by, I came out, and two hours had gone by.
I mean, you know, you're just not going to make that up.
Then on the right-hand side of the piece of paper, I said, okay, we have Einstein's equations in general relativity.
And we use them to talk about black hole mergers or neutron star mergers or whatever.
And all these things are massively energetic events.
Suppose I could engineer Einstein's equations the way we engineer Maxwell's equations for electromagnetic effects.
What would I expect to see?
And I find out I got a hand-in-glove match.
Between what was claiming to be observed and, you know, what Einstein's equation, if you could engineer them, well, why can't we engineer them?
Well, at least what we know today is the energy density required to engineer those equations is just way beyond our ability to do so.
Alcubierre warp drive, I don't know if you've heard of that, but Miguel Alcubierre was a researcher in general relativity and kind of a Star Trek fan and so on.
He said, I wonder if we could really have warp drive.
And so he used Einstein's equations to say, okay, under what conditions could we do a warp drive?
And he actually came up with solutions from out of the equations.
Okay, what would it take to drive that?
Oh, it would be hundreds of times more than the energy of the sun.
I mean, just out-of-sight energy.
So, you know, until we have a new energy source or until there's some backdoor that we haven't, you know, stewarded in on, it's just really outside of our...
There could be conceivably some breakthrough and an understanding of this backdoor, like whatever it could be, some new type of science, new kind of understanding.
And one of the things that I've looked into myself is, well, what about vacuum energy, so-called?
As a quantum physicist, we all know that...
You know, you push a kid in a swing and it comes down and stops.
But at the quantum level, you get something going.
It doesn't stop.
It always comes down to a certain level and it's still there.
So it turns out that what we call empty space is not really empty.
It's full of quantum fluctuations.
And in fact, one of the difficulties of modern physics theory is that when we go...
By using our standard quantum theory to calculate, well, what's the energy density like right here or way out in empty space?
What's the energy density of those quantum fluctuations?
It's 120 orders of magnitude greater than could possibly be according to all of our other theories.
I mean, it would collapse gravity and everything else.
So we have this conundrum that that energy...
That is everywhere.
Somehow all is random and cancels out.
So, you know, it's just not having an effect.
So the idea is if you can somehow access that energy and cohere it, so to speak, maybe you could get to the energy.
What would that look like?
Well, if I go off on...
A weird tangent.
I could tell you what it might look like.
Along the way in the remote viewing program where we're kind of looking at physical effects, we decided to take a look at so-called levitating saints.
And so, you know, you think, okay, well, that's a Catholic church trying to pretend it's got these magical people and whatever, whatever.
But when you dig into the data, you find that that isn't it.
It's that the church hated the idea that some...
Individuals were levitating because they might be in the middle of giving Mass and suddenly they float up or whatever.
So it turns out that even looking in the deep literature of the Inquisition and so on, the evidence is really solid that there have been levitating saints.
And what the Catholic Church usually did is they squirreled them off into some monastery where nobody would see them.
Notable example happened during a visit to Italy from the Spanish ambassador.
The ambassador had visited Joseph in his monastic cell and was so impressed that he wanted to return with his wife.
Joseph entered the church where the couple hoped to meet him and upon seeing the statue of Mary, elevated 10 feet into the air, flew over the crowd to the statue, prayed, flew back to the door and returned home.
There are enough stories like that with lots of observers and the reporting under really excellent conditions.
Okay, now that guy didn't have a nuclear power pack on his back.
So how did that happen?
Well, the only thing I can think of in terms of the physics we know today would be that somehow the vacuum energy, which can be very high if you cohered it.
And if you made it non-random, you know, maybe that could do it.
So perhaps he was able to access this with states of consciousness because he was so devout in his faith that upon seeing this, the experience was so overwhelming that he was somehow able to access this energy.
And if these are very unique moments where this is an extremely devout person who obviously was a monk...
Was probably meditating and achieving this insane state of consciousness that's almost impossible to get to unless you're committed as long as he was, unless you're as dedicated as he was, and then he has this overwhelming moment.
But the idea is that if there is energy that's allowing a person using their mind to do this, that somehow or another of this energy could be accessed.
Through science, through physics, through engineering.
For example, Andrei Sakharov, a very famous Soviet physicist, said, you know, I don't think gravity is its own thing.
I think really it's a manifestation of the underlying quantum fluctuations.
And so I and some colleagues from Lockheed Martin and elsewhere...
Kind of looked into that option.
And, you know, if we're just sitting here talking and so on, you know, the universe is full of quantum fluctuations.
Why don't I notice it?
On the other hand, if you get into your fast-moving car and you suddenly take off, you're pressed back in your seat.
Well, what is it that's pressing you back?
I mean, it isn't the wind.
You've got a windshield and a cover.
Well, there's some modeling that says, well, maybe it's because if you try to accelerate through the vacuum fluctuations, it will push back on you.
So that might be our first little touch that, okay, under conditions of acceleration, we do notice the background vacuum fluctuations.
Well, since to a theorist, inertia and gravity are connected somehow, then it makes you think, okay, well, maybe there's some way of accessing vacuum fluctuations to control gravity.
That's what we would like to think.
And so one of the things we did in the program was just collect every bit of data that we could.
So, for example, when I went through my analysis of, well, if we could...
Engineer general relativity, what we'd expect to see, a number of things came out of it.
So, for example, in this room, most of the electromagnetic energy we don't see.
It's in the form of heat.
And we don't see heat.
You know, if you get an infrared detector, you can see it, but we don't see heat.
Well, it turns out that under the conditions in which you're controlling gravity the way...
These craft appear to be doing.
One of the consequences and one of the attributes that goes along with it is that frequencies get raised.
And so the heat of a craft that you ordinarily wouldn't see can get raised up into the visible spectrum.
And so that's why they might look so bright.
That also has certain other digital consequences.
If it's powered up and it's sitting there in the ground and you get too close, the ordinary heat spectrum, which isn't harmful, or the visible spectrum, which isn't harmful, can be shifted up frequency into the ultraviolet and soft x-ray.
So if you get too close to a landing craft that's powered up, you might get a sunburn, which is one of the things that has been reported.
Or you might actually, in fact, get...
Radiation poisoning from x-rays and so on.
So those kinds of things seem to go hand in hand and give us some clues of where to look.
For people that don't know the story, I'll give you a brief synopsis, a brief breakdown of what it was.
They're loggers.
They're driving through Arizona.
They see this craft moving through the sky, and it goes into the woods.
Travis gets out of the truck, runs towards it, gets too close to it, and is hit with some sort of a beam.
Flies back, falls down.
The other guys panic.
They take off in the truck.
And as they're taking off, they're arguing that they need to go back and get him.
We need to go help him.
We need to go back and get him.
They're all freaked out.
They decide, yeah, we got to go back.
So they turn around and he's gone.
They get back to the spot.
The craft is gone.
Travis is gone.
They reported.
Everyone's freaking out.
No one knows.
They suspect they might have killed him or something.
Five days later, Travis appears, wearing the same clothes, looking none the worse for wear with this fantastic story that they took him aboard this craft and they communicated with him and fixed his body.
That something happened to him upon the impact of whatever that ray was that hit him.
That he was going to die.
They repaired him.
And they communicated with him and brought him back.
And one of the reasons I accept that story is that, for example, the other people who left the site and then went back, they eventually did polygraphs on them, and they passed the polygraphs.
So even after the SRI program got shut down, and after I came out to Austin in, what, 85 to set up EarthTech International and the Institute for Advanced Studies in Austin,
Starting to pursue my physics stuff because I really wanted to pursue my physics.
I didn't want to stay in looking at remote viewing forever.
But I got calls from a certain intelligence agency asking me if I'd be willing to set up another program in remote viewing.
And so I figured, okay, I turned them down because I liked it.
The change I had made.
So if they asked me that, chances are they asked somebody else that, and they've probably got somebody to agree to do it.
And from time to time, many of the remote viewers that we trained in Army NSCOM, for example, have now retired from the Army, and they're teaching remote viewing classes,
and they often get tasked.
By somebody back in the intelligence community to check out something.
I mean, they've been very prolific in, for example, detecting, say, cargo ships coming across the ocean where certain containers are full of dope.
Yeah, but what I'm interested in is the possibility of things under the ocean.
And I would imagine if I was running a remote viewing program and I had suspicions that there's activity under the ocean, like that craft that was seen that goes 500 knots under the water, that I would start looking under there.
I wouldn't rule out the fact that we may have some pretty fancy things running from our own labs.
What gets developed in the dark labs, some of which I know about, are really advanced, but it just can't cover the whole observation that we're seeing with what we call NHI craft,
I think we've got some, I mean, it's out on the web these days that, for example, Battelle Institute has supposedly were given some materials from the Roswell crash,
and we always hear the descriptions of this foil that you could...
Crumple up and then you let go and it just flattens out again and so on.
So material of that type was provided to Battelle and they worked on it for some years to try to see if they could reproduce it and the claim is that and it's in the public domain that nitinol came out of it which is that material that It can be heated and then it'll reform into its original source.
It doesn't exactly reproduce the effect you saw, but some of it is kind of in the direction of that.
And it turned out that some of the main material engineers that worked on that, at their deathbed, they told their relatives that they were working on pieces from the Roswell crash.
And they made some progress, but not a lot.
You can look that up on the internet and see that that's the case.
Is part of the limitation, this thing that we were discussing earlier about compartmentalization and the lack of ability of other scientists to get access to this material so they can collaborate?
I mean, one of the stories that I ran into was a corporation had materials from crashes in their basement.
They couldn't even bring them up.
To the top floor for their own scientists to look at because it was so compartmentalized.
And so that was part of the deal where we said, okay, well, give them to us, and then we'll come in the front door and give them to your scientists.
And we won't say it came from your basement, and we won't say what it had to do with.
And, you know, maybe that would work.
But that got shut down, so it was so compartmentalized.
Compartmentalization is really a death knell on much of this stuff.
As I say, as I go back to my teller story, more collaboration, even though there are faults that can happen and material can leak out and information can leak out and that might help an adversary.
Still, I think more openness would be a better idea.
We had this discussion earlier about, you know, for example, the row viewing or quantum entanglement or, you know, what's going on in our physics that we don't understand that these kinds of things can be happening.
And you'll be interested to know that someone you know, John Paul DiGiorgio, and I are in partnership to explore a new, And so I'm actually now,
at this point, directly involved in a program to examine quantum communications.
And so it turns out that whereas ordinary electromagnetic communications, you know, can't get through barriers, a metal door or whatever.
Well, why is that?
It's because the electromagnetic signal...
When it gets to the metal door, the electric and magnetic fields generate counteracting effects, and so the signal can't get through.
So it turned out that some years ago, when I was digging around to try to find out how to explain unusual effects, I dug deeper into electromagnetism down into the quantum levels and recognized that there are some additional quantum processes.
Where you could end up suppressing the electric and magnetic fields, but you would still have a quantum signal, which in principle could get through barriers.
And so that would mean, okay, that's the case, and you could communicate to submarines.
So whereas the salt water is sufficiently conductive, the electromagnetic signal can't get down there and communicate.
If you are able to...
Pull out the electric and magnetic components, but you still have an underlying quantum aspect to it, you could get through.
Or same thing with, you know, spaceships.
You know, when our spaceships came back from, when the Apollo spaceships came back, once they started in our atmosphere and are surrounded by plasma, we have this period where there's no communication.
Well, for the very reason that electromagnetic signals can't get through charged plasmas.
Well, it turns out that the machinery to generate the signals would be very explicitly designed antenna structures.
They're put together in such a way as to prevent electromagnetic...
Components from being transmitted.
It's the detection part where the secret to the technology is because it turns out that, okay, if electromagnetic signals aren't there, how are you going to detect such a signal?
Because all of our detectors are, you know, electromagnetic signal comes in and generates a current and whatever.
Well, it turns out that...
These special kinds of signaling at the quantum level can only be detected by quantum devices.
Quantum devices can detect these quantum communication signals even if there's no electric and magnetic effects associated with them.
So that's what we're looking at.
And so when I think about, okay, well, you know, what areas does this have?
Well, of course, it's got a lot of application for things like communication and under conditions where you'd like to overcome shielding.
But it may have something to do even with some of the consciousness stuff.
Because ordinarily, you know, when you hear about people trying to think, well, what about consciousness?
Is it still just all molecules and neurons whirling around?
Or are there some additional fields?
There are a couple of physicists, well, the physicist and anesthesiologist, the physicist Roger Penrose, who got a Nobel Prize for general relativity stuff, and Stu Hameroff, who is an anesthesiologist,
they coupled up and started saying, okay, is there a possibility that there are quantum aspects in ordinary life, in ordinary consciousness?
Because...
Sounds kind of reasonable.
The anesthesiologist says, well, when I give somebody a certain anesthetic, they lose consciousness.
So there must be something about the anesthesia that grabs onto whatever's responsible for consciousness.
So to make a long story short, they came up with a model where they felt that there are, in fact, quantum processes occurring within the brain.
That in addition to the stuff we all read about and know about, like neurons and all that kind of stuff, there's also a distribution throughout our brain and nervous system of what's called microtubules.
And it turns out microtubules have such a structure, you do experiments in lab to show this, that they can detect quantum signals.
So the idea that even in our consciousness...
There are mechanisms for detecting quantum signals.
It's like a whole new area to investigate.
And so there are some biological and consciousness-oriented experimenters that are taking a look at this idea that, okay, instead of just saying quantum entanglement, that's how information you get from here to there,
maybe we can actually find out, okay, well, what's the mechanism, though?
And so this is a whole new area.
It turns out that I developed proof of principle for this sub-Rosa quantum communication stuff on a classified contract back in the 90s,
actually.
So I got proof of principle in that situation.
However, you say, okay, well, if you've got proof of principle, then why aren't we using it?
Why isn't it all over the place?
Well, it turns out the quantum detectors were very new kinds of circuitry, nothing ready for prime time.
So I put that whole thing on the shelf, let it sit there for a while.
And now, because of quantum computing, it turns out a lot of research effort is going to develop.
Cryogenic circuitry near absolute zero to be used in quantum computing.
So I said, okay, they got these Josephson junctions working, which is exactly what I want to use for my detection scheme.
And so I finally decided to take it off the shelf.
So I approached JP and showed him what the potential was.
Not only in just communications, but maybe it has implications for biological things or medical things or whatever because of this other work on microtubules.
So he said, okay, well, let's go for it.
So we have another major lab that is actually putting together circuitry for us that operates about 3.7 degrees above absolute zero.
Quantum entanglement, is that what you think was going on with the algae?
So if you were able to do something to the algae in one area, this same colony of algae, when you had separated by long distances, they instantaneously recognized that something was happening?
As it turns out, I never actually got to do that experiment because the CIA came and scooped me up and said, well, we've got to look at this remote viewing.
And so even though I proposed doing the experiment, the polygraph guys said this would be a great experiment.
Never got around to doing the experiment because along the way, Ingo Swann, you know, visited his lab, came out and perturbed the tiny quantum chip in the super shielded environment.
That brought the CIA on my doorstep, and so then we went off in that direction.
So as you consider all these technologies, as these innovations occur and technology becomes more and more powerful, like quantum computing, like many of these things that we're seeing now, do you think that these are all steps to further understand how these crafts could possibly work,
and we're getting closer and closer to it, Disclosure would accelerate that and we would have to get over this.
We'd have to have some sort of amnesty.
Amnesty towards the people that...
That misappropriated funds and lied to Congress, amnesty towards whatever defense contractors were given access to this equipment or these materials and other ones.
There has to be some executive decision that's made where, like, look, for the greater good of the human race, we have to bypass all of these blockades that are involved in us being able to truly understand what's going on here.
And the document said, look, what we need is a presidential panel.
President...
It's an officiated panel of people from several different areas and all those people out there who have materials and so on.
We're going to practice eminent domain, which turns out to be one of the things that turns people's hair on fire when they think they've got something and don't want to share it.
But anyway, we have to come up with a process whereby...
Corporations that have been involved in this can begin to share their history and their data and their materials.
And the National Archives will be set up to make this information available, as is safe to do, considering security concerns.
And so this is a multi-page document that you can find.
You can find it on the Internet.
Okay.
It passed the Senate, but the House killed it.
So you might think, okay, well, that's the end of that.
Surprisingly so, and it makes you realize the intensity of this, after it was killed, both Schumer and Rounds got back up in the Senate floor and said, okay, it got killed, but we're not giving up.
We're going to get it in there next year.
And so the following year, 2024, they included it again.
And most of it got killed.
The only thing that got killed was, okay, the National Archives will make available whatever information is provided them on this subject area.
And the National Archives has started to do that.
But as you can imagine, anybody who's got some really juicy stuff isn't going to give it to the National Archives.
It's still dead in the water.
So anyway, recently I was asked to come in and brief Senator Rounds, who was one of the two people who pushed this.
And he said, we're not giving up on this.
Give me what you've found so far about the physics of this.
Because when we try to push it, we always get the pushback that, well...
You know, we're not going to make any headway.
The pilots say this is way beyond our physics, but I understand that you and your colleagues have worked on this and felt that you can provide some of the physics.
We may not get the engineering yet, but we have some place to start.
Is that true?
Because I need to push back on the pushback.
So I gave them a long lecture on the physics, which I've also presented to the Senate Select Committee on Intelligence, the Senate Armed Services Committee.
ARO, the all-domain anomalies resolution office.
So the information is coming out into those places, and so there are those people in high positions of power in our Congress who are really pushing it.
So, for example, as it turns out, tomorrow there's going to be a big meeting.
I think it was set up by Representative Luna.
I think it was Representative Luna.
You know, when they put out that official document saying, okay, JFK files are coming out, RFK files are coming out, MLK files are coming out.
In that list, UFO files are coming out.
Well, they haven't gotten there.
The Epstein files are coming out.
Okay.
So it's officially on that list.
So in fact, as it turns out, tomorrow there's going to be a big thing in Congress where they're going to have an open hearing with people coming forward to talk about that there should be some release of some steps forward to release this kind of data.
So it is not a dead issue.
I mean, it is hot, and there are a lot of really powerful people behind it.
You've got the resistance buried.
There are people within the intelligence community and the DOD who do think we need more openness.
They see the same issues I see, that we're not making much progress because everything is so compartmentalized.
When you talked about during the Bush administration, you were tasked, along with others, to try to figure out what are the pros and what are the cons and what outweighs what.
And your group decided that the cons outweighed the pros.
When it comes to disclosure today with the risk of espionage...
And with the risk of this information, if it becomes disclosed and everybody has access to it, clearly if it's disclosed to the general public, it's also going to be disclosed to our enemies.
Well, this write-up that Schumer and Rounds and some other people, Gillibrand and Rubio, put together said, okay.
We're going to have to lay everything out on the table at a highly classified area.
We're going to have to sort our way through of what can be released that doesn't take the chance of giving our potential adversaries data they need to leap ahead of us.
But nonetheless, we've got to have more collaboration so that we can move ahead faster.
So that's the job of, at least in that document, of a nine-person panel to figure out, okay, what could be released without jeopardizing our national security so much, but nonetheless accelerating the kind of collaboration we need to make headway faster.
And then there's the issue of when it does get disclosed.
Like, what happens to the general public's perception?
If this is like a national disclosure, if the president, if Trump gets on television and discloses everything we know so far, we are in possession of 10 vehicles, however you want to call them,
of non-human intelligence that are not ours.
We have been working on this for decades in secrecy.
Because of the fact that everything has been so secret and everything is so compartmentalized, innovation has been stagnant.
Our understanding of it has been stagnant.
The only way forward is to disclose.
But this is going to come with a radical reimagining of our place in the universe.
What you've just described is what I think has to happen.
I mean, because you have whistleblowers like Dave Grush coming forward.
And he basically says, we've got craft, we've got bodies, we've got aerospace corporations working on this behind the scenes.
But in the end, that doesn't go anywhere.
It doesn't really solve the problem.
And you have people come forward and said, look, I can give you the address of where the stuff is stored so we can take this out of the discussion area and really prove something.
But it would take, I think, a presidential executive order or something to light a fire under that process to have it happen.
And when I compare, you know, where are we today as compared to where we were in 2004 or whenever that other...
Disclosure discussion took place.
At that time, there was a lot of stigma.
There was no proof you could kind of put your hands on.
There was, in fact, purposely designed misinformation by the intelligence community.
The so-called Robertson panel went out of their way to say this is all nonsense.
So that was something you're dealing with.
So there you realize, well, if I come forward and say there's really something to this, I'm really blasting through quite a brick wall here.
But in the intervening decades, I think we've gotten to a point where the reasons we had to not do it then are no longer applicable.
But some of the concerns we had discussed then.
Are still applicable and have to be.
We have to pay attention to them.
So I think, for example, this film that you saw that had its premiere at South by Southwest that Dan Farrell put out, and an upcoming book coming out by Jay Stratton,
who was in charge of the UAP task force, these kind of things are going to accelerate that option.
And so I think it's only a matter, I mean, I would find it difficult to believe that within a decade we're not going to figure out how to do this and that there will be what you and I would call disclosure, but in a responsible way where we're not providing the enemy information they need.
I mean, I recall when the DOD program was set up out of DIA, they said, well, We need to investigate this to find out whose craft there are, how do they run, and whatever, whatever.
And then the second reason was, what if our potential adversaries get access or figure this out from their data collection before we do, and they leap ahead of us.
So it turned out that whole program was not based on one.
They couldn't care less where these things were coming from, what their intentions were.
They're really worried about the possibility of an adversary getting ahead of us.
So that was the driving force behind the whole program.
Well, now having all these intervening years go by and, you know, there hasn't been any obvious super breakthrough by adversaries.
I think now is the time we could have a kind of a reconciliation process, make sure we don't put everybody in jail and anything to do with covering this up.
Provide proper lanes to bring various aspects of information forward.
And so that's what I and colleagues that I interact with are trying to do today.
I would also think that if I was looking at civilization, particularly United States civilization, and thinking what kind of an impact would things have in 2004 with disclosure,
And what kind of an impact would they have in 2025?
I think that this gradual acceptance and this understanding that this is probably a real phenomenon is much more widespread today.
So the concept of it, it wouldn't be as shocking as it would have been two decades ago.
you know two decades ago by the way is when the the tic tac vehicle was was observed which is 2004 which is really kind of crazy when you think about the technology that was required to do something and then imagine that that
technology being ours in 2004 it seems preposterous right it seems almost outside of the realm of even whatever top-secret programs could have been running some black programs could have been
It is too much.
It seems too crazy.
I think a big breakthrough, and I think you probably agree, was the New York Times.
That 2017 report in the New York Times was huge because here it is in the most prestigious newspaper in the United States, in the world.
And it's saying, look, there's real things happening here.
And there's real people who are at a very high level who are talking about these things.
Whether it's Commander Fravor or Ryan Graves or all these different fighter pilots that have encountered these things that are just doing something that is beyond explanation.
And the more you have people like James Fox and Jeremy Corbell and...
These documentaries that get out, more and more of an understanding and appreciation of the fact that these aren't kooks.
These are real people.
And we need to take into consideration the very obvious possibility that we are not unique.
There's too many planets.
There's too many solar systems.
There's too many galaxies.
And then dimensions.
Just the potential of, like, what do we look like in a million years?
What do we look like in a million years?
And if we, you know, existed in this form for hundreds of thousands of years, it's not inconceivable that a species like us could keep going with its innovative trajectory and achieve some state a million years from now that is just beyond our imagination currently.
I think you have laid out an exact map of the real situation and what the future probably holds for us and the fact that now is the time,
sooner rather than later, to begin to have this become part of our total philosophical fabric to face into this.
And to accept the reality of non-human intelligences, for example, and recognize that our own technical development is moving so fast that the kind of things that we find to be so mysterious are pretty much likely in our not-that-far-off future.
If it does happen, it's thanks to people like you that stuck their neck out for many, many years, and I'm sure you experienced a lot of ridicule and side eyes.
In fact, I remember when I was involved in the remote viewing program, one of my sons was attending a grammar school, and one day another father's kid came over to play with him, and when the other...
A professor, actually, at Stanford came over and said, I brought my kid over to play with you, but his last name is Puthoff.
Are you associated with that Puthoff at SRI and that remote viewing?
I said, yeah, yeah, yeah, I am.
And he said, okay, my son's not going to come over and play with you.
Well, it feels like a gift for me because it's so fascinating, and I've been obsessed with it my whole life, as I think a lot of people are, who look into it at all and realize there's something of substance there.