Video Transcript
The brand new reporting Colin Rug uh friend of the show maybe the CIA used a secret tool called Ghost Murmur that uses AI to find heartbeats to rescue the US airman who is stranded in Iran. According to the New York Post, secret technology was used for the first time in the field. Chat, it was used for the first time in the field. Much like how we're seeing fusion propulsion for the first time right now as well. It's like hearing a voice in the stadium except for the stadium's a thousand square miles of desert. So right off the bat you can say this is pretty interesting. advances in a field known as quantum magnometry or magneetto magneetto magneetto magnometry however you can say that specifically sensors built around microscopic defects and synthetic diamonds have apparently made it possible well let's learn a little bit about this John Radcliffe tell us tell us more as an agency the CIA possesses unique capabilities that only the president can deploy deploy. Some of these capabilities fall under covert action authorities. And because covert means exactly that, I'm not going to be able to tell you everything that you want to know. At the president's direction, we deployed both human assets and exquisite technologies that no other intelligence service in the world possesses to a daunting challenge comparable to hunting for a single sane of grain of sand. in the middle of a desert. Is he supposed to say all that? Some people have pointed out. They've said, "Ashton, if they are say if they are disclosing this, this means it's 20 year old technology." Yes, it's probably more like 30 or 40 year old technology. That's why they're disclosing it. This is not brand new technology. This is quantum sensing technology that we have discussed repeatedly on the show and we're going to dedicate this entire show to it. But let's let him finish here. This was also a race against the clock as it was critical that we locate the downed aviator as quickly as possible while at the same time keeping our enemies misdirected. For that reason, in addition to the human and technical assets deployed by the president to find our airmen, CIA executed a deception campaign to confuse the Iranians who were desperately hunting for our airmen. >> Okay, he doesn't really talk about the uh Gorgon or the I keep calling it Gorgon, the ghost murmur. So, here's the article about it. the New York Post right after this, like Tuesday or Monday night or Tuesday, they come out and they basically say it wasn't just like I did the whole video saying they used Gorgon's stair with MQ9 Reapers above to map everything and they found a few pixels moving. That was what I was telling you guys. New York Post comes out and says, "No, it's even more than that." Now, I'm not I'm not saying they didn't use Gorgon stair. They definitely still used wide area motion imagery to find the guy. No doubt. They're probably just using that normally. Now, this goes well beyond it and it broaches into the area of quantum physics and the technology that we've been revealing that cannot be explained by classical physics. Gorgon here. We're going to call it Gorgon here from now on. New name. Screw Ghost Murmur. Gorgon here. We have Gorgon stare and Gorgon here. Perfect. I love it. Okay, here's the here's the article. Never before tool. Yeah. Okay, screw all that. Where's the details about how it works? So, when you when you consume slop, also known as mainstream media content, you'll notice you have to go through at least 10 advertisements. First of all, you have to go through basically none when you get to my content. Also, the true the useful information is usually like eight paragraphs down. So, you don't the first two paragraphs you can pretty much just skip the source. This source and another with knowledge of Lockheed Martin intelligence collection tools told the post that ghost murmur was developed by skunk works, the aerospace giants secretive advanced development division. Um, what? Lockheed Martin is the one that developed the Gorgon here. Unbelievable. Okay, actually totally believable. actually so believable now that I'm going, didn't I just do a whole live stream about how we were reviewing Ben Rich's book and they had this huge relationship with the CIA and they're just building [ __ ] that for them for decades, surveillance technology specifically. Yeah, we did just do a whole live stream about that not even like a week ago. And here you go. Now it's being reported not only does the CIA have this quantum technology, Lockheed Martin developed it for them. Well, that is very interesting. We know a Loheed Martin guy. We know the BPTG. I say this in the most affectionate way. The BPTG. Charles Chase, revolutionary technologies division of the Loheed Martin skunk works. Built them a compact fusion reactor. Also was an expert in electromagnetics. Huh. Interesting. I'm just saying it. I'm not even afraid being sued because Charles Chase had to have helped them build this ghost murmur thing. Like, no doubt. It's probably well over 10 years old before he retired and he probably helped them build it. I almost sent him a message after when I saw this to be like just I was going to just not even have anything in the email, just a screenshot of that part, this part right here of the article. Just send that to Charles Chase. No message. He'll get it. Long story short, they use something called a squid. Man, this I'm struggling with this. They use something called a squid. That is a quantum device, quantum sense device. And the squid is made up of Joseph's injunctions. Joseph's injunctions. Now, a Joseph's injunction, instead of me explaining it, I'll just have old Ashton explain it because I've talked about these devices many times in the past. Meanwhile, I'll find a source for you. Here you go. And if you ask Grock about it, you'll see that we've spoken about it many times. Um, and this was one of the better clips because it explains the physics behind it. Now, keep in mind, as I've said, I'm not a classically trained physicist. I'm proud of that. I'm proud that I don't have a PhD and was able to learn this and one up all of these people. So this is just my explanation, but what I will do is I will support it after this with evidence from real actual physicists and engineers that of course are not on the show because you know they can't talk about this stuff publicly but we've got clips of them. So here we go. So then quantum sensing is basically just picking up pertubations in the ether which we would refer to as gravitational ripples like the ripples on the ocean of the energy. We don't see them, but they're there and they can be detected with the right configurations, which would be a Josephson junction. So, if you're not familiar with what a Josephson junction is, I've been yelling this out now, and you're probably wondering, "What is this, Ashton?" Superconductor. Let's just I used to say semiconductor. Let's just be real. Superconductor, insulator, superconductor. So, the analogy is straightforward. You've got a freaking highway, a rapid speed train. Let's just say your train is a magnetic levitation train moving at Mach 3. And I got a wall right here. Brick wall right here. You'd imagine nothing's getting through this wall. Boom. That's where quantum mechanics takes over. Quantum mechanics says that's a wall. Nope. I'm going right through that bad boy. Quantum mechanics shows that some electrons, it appears as though they go through it. Now, how is this possible? How can parts of the train get through the wall? The answer is they're not. The electrons aren't going through the wall. What is actually happening? the ripple, the ether itself is being disturbed. And when the ether itself is being disturbed, you are seeing a pertabbation on the other side of the wall just like you would because it's a wave. So what's the answer? Here's what's the problem. What's the answer? Number one, the problem is thusly. The magnetic field of anything including your heart or any object falls off exponentially as distance increases. So any electromagnetic field that might be coming off of you becomes vanishingly difficult or imp almost impossible to detect. So these devices these kind of quantum sensing devices are known to exist. The problem is a sensitivity problem. Can we detect something that faints? And if so how how are we detecting it? because that electromagnetic field is far too weak to even go several feet from being sensed by one of these devices, let alone possibly being able to be detected from miles away. So, the cheat is the same answer that we've been looking at for quantum entanglement, the ether. How does quantum entanglement work? How can two things that are separated by an extreme distance, how can one thing interact with the other? What connects these two things? People, critics would say, well, it's it's the topology. What topology? There's nothing between them. Well, the systems are interconnected. How? Quantumly? By what? There has to be something connecting them. And if we realize that everything is actually connected through this idea of this extra dimension, this ether, then we have no problem understanding how we can detect a faint signal far away. You say, Ashton, how would that work? Explain that to me logically. Perfect. That's what I wanted to do. Here we go. I think it works the same way the thermoputer guys thing works. The thermoper guys, they're like, "You know what? We're going to random sample the ambient temperature and we're going to look for slight variations in that. We're sampling just generic spaceime and from that we're able to determine signals. We're able to pass information from random sampling almost passive sampling. So if we have an ether now even a very faint signal is going to leave a trace in that ether leave some sort of divot even if that divot is very slight. But then there's another problem. And you say, "Okay, we've got these faint signals that we are that are being emitted from me right now, from Lulu over here, from you guys super far away. How do you know what my signal is? How do you know Ashton versus a squirrel or a dog?" So, not only do you have a problem of actually the sensitivity of your apparatus, but you now also have to be able to differentiate between a super tiny faint beep that is basically no different than the background noise and some other faint beep that's also no different than the background noise. How in the hell would you figure that out? That seems impossible to a reasonable person. You would say there's no way. That's completely impossible. In fact, a lot of reasonable people, including some Bean Hassenfelder, are are on social media saying this is I am a physicist and this is impossible. I am a notreasonable person. They would say, "Here's all the reasons why you would never be able to do that. I'm an unreasonable person. I bend the world to my will." And I say, "Here's the reasons we can do it. We can differentiate a human heartbeat miles away from a squirrel where neither of them is basically even registers above the background ambient electromagnetic energy. How they told us, guys, just listen. When they report and they tell you what they're doing, listen. Who in the chat knows how they're able to do it? How are they able to take a faint signal and find it and differentiate it from the other faint signals? Anyone? Artificial intelligence. AI the same thing that they apply to Gorgon stair. Humans aren't able to figure that out. AI is AI is looking at thousands millions of maps of samples of spaceime of the temperature using these tiny quantum sensors Joseph's and junctions or even things beyond them. And the AI is looking at them and it can pick out something that a human would never be able to differentiate from. And the AI can go, I have an 89% probability that this tiny deviation here is a human heartbeat. That's the guy you're looking for. Imagine the precision required to pull that off. I'm here to tell you they can do that. They have figured that out. That is one of the secrets of the MH370 videos. One of the secrets of the MH370 videos is the level of quantum precision sensing they have is decades beyond what we're aware of. Their quantum computing capability is also decades beyond what we're capable of. And you say, what are they doing with it? This is what they're doing with it. They're doing atomic precision calculation, super complex quadratic, whatever, you know, calculus calculations they got to pull off.