Hal Puthoff
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Podcast Appearances
there's also a distribution throughout our brain and nervous system of what's called microtubules. 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 is 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...
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...
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 got proof of principle, then why aren't we using it? Why isn't it all over the place? Well, it turned out the quantum detectors were
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 got proof of principle, then why aren't we using it? Why isn't it all over the place? Well, it turned out the quantum detectors were
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 got proof of principle, then why aren't we using it? Why isn't it all over the place? Well, it turned out the quantum detectors were
very, you know, new kinds of circuitry and 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.
very, you know, new kinds of circuitry and 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.
very, you know, new kinds of circuitry and 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 Josen 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, you know, biological things or medical things or whatever because of this other work on microtubules.
So I said, okay, they got these Josen 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, you know, biological things or medical things or whatever because of this other work on microtubules.
So I said, okay, they got these Josen 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, you know, 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. I mean, this is really quite a technical challenge. But he and I are working on that together. He's my collaborator.
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. I mean, this is really quite a technical challenge. But he and I are working on that together. He's my collaborator.
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. I mean, this is really quite a technical challenge. But he and I are working on that together. He's my collaborator.
That's the only thing I can imagine at this point based on the physics we know. How far were they separated in distance? Well, I was going to separate it. It was about five miles. As it turns out, I never actually got to do that experiment because the CIA came and scooped me up and said, well, we got to look at this remote viewing. And so even though I proposed doing the experiment,
That's the only thing I can imagine at this point based on the physics we know. How far were they separated in distance? Well, I was going to separate it. It was about five miles. As it turns out, I never actually got to do that experiment because the CIA came and scooped me up and said, well, we got to look at this remote viewing. And so even though I proposed doing the experiment,
That's the only thing I can imagine at this point based on the physics we know. How far were they separated in distance? Well, I was going to separate it. It was about five miles. As it turns out, I never actually got to do that experiment because the CIA came and scooped me up and said, well, we got to look at this remote viewing. And so even though I proposed doing the experiment,
The polygraph guy said this would be a great experiment. Never got around to doing the experiment because along the way, Ingo Swann 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 I never got to do the experiment.