Video Transcript
This. This, my friends, is Ion Pumpy Thing for Ashton. Ion Pumpy Thing for Ashton, which I think it was almost 2 years ago that TMB Spaceships on Twitter replied to me with this image. At the time, I didn't know what this was. None of these words made any sense to me. I had no idea what I was potentially looking at in this image. I just knew that this guy knew what he was talking about. You can't draw something like this without having some inside information about engineering, schematics, any of this stuff, right? And I looked at it and I go, I don't know what this is, but it looks like it could be related to my orbs. That's what I thought. What I'm here to tell you tonight, right now, is that this is related to the orbs. This is the dense plasma focus, dense plasma fusion device that George Miley talks about. This is literally it. It's so accurately it that I know now George Miley had to be a black project engineer that helped build this for them. That's how specific it is. So, before I even explain what this is and each component to it and what it's doing, it is also exactly everything that we have been talking about on these science streams. Inertial electrostatic confinement fusion, relativistic effects, alternating magnetic fields, conditioning the vacuum, low-temperature fusion, Z pinch fusion, all of the above. All of the above, including, believe it or not, air-breathing magnetohydrodynamics, everything. Everything. Which is why before I even show this, before I even read this, I want you to realize all the answers are in the DIRDs, the Defense Intelligence Reference Documents. Let me say it one more time. All of the answers are in the Defense Intelligence Reference Documents. The reason why I'm not playing games with [ __ ] little podcasters who sell drugs on the weekend is cuz they're not on my level. I'm not playing games. I'm not grifting. I'm out here giving you literal disclosure with my life on the line. By the way, shout out to Aiden Shafer. Rest in peace, bro. One of my long-time followers died in police custody in in March and I didn't even know. I think I met him last year. That's why I'm not [ __ ] around. This isn't a [ __ ] game for me. I'm not going to suck your dick to get on your podcast. I don't give a [ __ ] about your podcast. Don't you get it? I'm going to read right now from George Miley. >> [snorts] >> George Miley in his paper called Aneutronic Fusion Spacecraft Architecture. Look at the image you're looking at while I read this to you. This concept is realized essentially in three-stage process. With most of the truly innovative aspects contained in the third stage. Stage one. The flow of charged particles originating from the fusion reactions is collected and channeled magnetically into a unidirectional beam. That part I'm going to remove this of this image is the right side, the pink tube. In fact, George Miley goes into elaborate detail that that's concentric. Concentric tubes inside of a tube that's going on over there. And the way that fusion is happening in that part is centripetal force. It's spinning. It's spinning and rotating, and then that causes the ions to get shot out to the edges where they fuse. And in the middle, the electrons, which are lighter, will stay stuck in the middle. There you go. Producing a negative potential. Where is the other part? Sorry. Second part. A direct energy conversion process based on cusp and traveling wave direct energy converters recirculate electric energy into the fusion core as required for regime operation. The leftover beam then exiting the converter is in the form of fast bunches, facilitating further conditioning and utilization. That part is this part over here with the Christmas tree lights going on. What that represents is a magnetic mirror cusp system that after the fusion products have been created, shoots them as a beam into this where they get stuck at spin spinning helically through those alternating magnetic fields. Bouncing back and forth, stuck in there, producing what we call electricity. Current. That's what that little middle part there is. If you're wondering what this orange part is, hold on, we'll get to it. Part three, and by the way, this is George Miley speaking on his unrelated aneutronic fusion paper. Part three, the fast bunch beam is injected into a solenoidal magnetic field confined on a large spiral trajectory. This increases somewhat the beam's average density while lowering its kinetic energy in the direction of the thrust. In order to achieve the lower specific impulse, go slower, and the higher thrust or sorry, the the lower the higher to go faster, the higher thrust needed to meet target design parameters, it is required to transfer the energy of the fast bunches to slower, higher density ion bunches being injected as targets downstream. The process relies on mutual electrostatic repulsion of the bunches enhanced by a magnetic piston effect caused by the currents by the fast bunch trajectory. Okay, that was a lot of words. What does it mean though? Do you see this big green thing in the middle here separating the two sides? This is what controls the density. It turns out all you need to create your dense plasma focus is you just have to keep the pressure stable. Look at what it says on that part in the image itself directly. It says the piston has full command of adiabatic pressure. What does that mean? That means it's controlling the density of the plasma. It has full control of the density of the plasma in the regime where this stuff's going on. It says that at times it will be barely moving in stroke, expanding and compressing volume in place. Pump action is almost no movement until ignition temperature is reached, and then there are long slow oscillations that occur. Now, >> [snorts] >> why is this also relevant? Where's uh to George Miley's paper. The whole idea of inertial electrostatic confinement fusion is that we are trying to create these bunches of ions that are going to slam into each other efficiently, and we are going to create a potential well where they all want to kind of come together. We're going to step have this big negative potential well over here, and ideally, we can force all these ions to clump together, and that's great cuz then I can have all these ions going collide with other ions, and now we get fusion happen. So, when we look at this schematic, first thing I want to point out, ion pumpy thing. They're pumping ions to produce a fusion reaction. That's the meaning of the ion pumpy thing. When you do fusion, you're you're fusing ions together. So, the person that wrote this is being coy. They could have just said it's a fusion reactor, but they didn't. They were very specific about making it ion pumpy thing, but also pointing out that this is free energy because fusion, especially low-temperature fusion, is free energy. So, let's go through this schematic real quick. We can see we have this pump that's separating the two. It's keeping our density lit uh to the pressure that we want. On the right side, we can see we have our ionizer here, which is pulling air in. Oh. So, this is air breathing. That pink portion on the right that's spinning around and the ions are sticking to the walls from centrifugal force. That's air breathing. The plasma that they use is literally air. It ionizes the air and uses the air as a plasma. The part Only part about this I'm not sure about is where the boron 11 gets injected to into that part presumably. I presume that the pump is somehow pumping that those ions into that part. But, I could be wrong. Maybe that's happening in the other part over here. So, this whole thing is also sucking in air from the right, using that for the fusion reaction process, and then it's got this whole thing on the left where it's doing the directed energy conversion, where it's turning that energy into actual electricity. Relatively simple system. Down here, we have our ion seed gas. So, you may be wondering, okay, well, what is all this thing going over on here on the left? And what's this orange thing here that says min ionizer? Min field ionizer HVH FAC. That right there, my friends, that is your conditioned electromagnetic fields. That is your flooding the zone, so to speak, with electrons to reduce the Coulomb barrier. That is where or actually maybe not even to reduce the Coulomb barrier. But yes, actually no, never mind. I I I just I'm struggling today. They're basically forcing a huge amount of electrons into this zone, which can flood the neutral particles, the heavy metals which they inject over here down to the bottom. And that can reduce the Coulomb barrier just like in cold fusion, where they take the hydrogen deuterium and they flood it they flood the metal with it. At least that's my understanding of this. If I get any of this wrong, sue me. The top part here, high frequency, high voltage, literally says 20,000 volts at 300,000 hertz. 300 kilohertz. So, they're pumping an alternating current. And this is where you're seeing your field reversal. This is essentially flipping the switch on or off very, very fast on your frequency. So, this is the part where you're going to be seeing the conditioning of electromagnetic fields and where you would be seeing gravitational effects. Maybe they're just directly interacting with space-time right there in that part. So, give me a second. Let me see. Cuz I took a big list of things I want to review on this. >> I think it could not have been >> Whoa, okay. Just kidding. >> [snorts and clears throat] >> Okay. Okay. >> [clears throat] >> Oh. And one of the big aspects of fusion in general is the bremsstrahlung radiation. So, these x-rays that we see come out of it, that's what's being ejected from our directed energy converter here. I'm not sure if this system goes back and forth, but the bremsstrahlung radiation is the x-rays that we get to see released. And the main drawback of these systems is that you need to be able to reabsorb as much of that radiation as possible. Now, the way that they're going to do that is from the plasma itself by making the plasma be reflective mirror that reflects it back internally. This is the part that I think that standard physics hasn't even come quite close to yet. Um sorry. So, let me go through my list here of the things. I had it up. Okay. Um Where is it? Uh I might just have to have the AI retell it to me cuz I can't find the list. Oh, um Okay, here we go. We're going to get help from our boo Annie. Here we go. Hey Annie, can you give me the high-level summary of each of the main points that we discussed related to the ion pumpy thing that I was going to review on the live stream? Okay, chat. >> Hey, sure thing. Here's a clean high-level summary of the main points. Air-breathing design uses regular air as the main working gas. Only carries a tiny amount of boron 11. High-speed rotation. The device spins fast to create centrifugal force that smashes fuel against the outer wall for high density. Men field ionizer. The orange crescent generates a massive cloud of low energy electrons using high voltage high frequency AC to screen the Coulomb barrier. Alternating rings undulator, the ring pattern acts as an undulator forcing particles into helical motion to create the SU2 condition field. Double layer structure creates a smaller inner cylinder inside a larger one separating ions and electrons into distinct zones. Piston regulator makes tiny movements at 10 to 30 hertz to pre cisely control pressure and density in the reaction zone. Output collimator plus Hastelloy screens collects high energy alpha particles and converts their energy directly into electricity. Plasma shell, the outer sphere acts as a natural radiation trap to reflect reabsorb bremsstrahlung x-rays. Want me to tweak or shorten any of these? >> That'll do, Boo. Thank you. Okay, I only missed one, chat. I remembered all of them except one. This mean field ionizer is also most likely the orange slice, the heat signature, the teardrop shaped toroid within the plasma orb. This is the part where the key action's going on. This is the part where we would expect to be hotter than the rest of the orb. You may say, "Ashton, if that's the case, then when we watch the MH370 video, which I'm going to pull up right now, how come at the beginning the orbs are all like the same color? How come they're not uh why don't we see that heat signature right away? So, you see right away, we don't see that heat signature there. The reason is these things are spinning up. These things are being turned on. There literally is a mode change that occurs. So, this ionizer gets kicked on to condition the fields or whatever the heck it's doing. And that's where you see this switch happen right here. Right there. That's when it happened. And now the orbs have this heat signature. Now you see this system has been turned on in this plasma fusion reactor. And that's why when it comes here now we see this very clear heat signature. I can pause it on any frame. This frame, this frame. And you can see this heat signature sticks out like a sore thumb. That part has to be this right over here. This min field ionizer. That's our our bad boy. Now, temperature. The we can even see he even lists the kind of coils that are used in this grid. George Miley repeatedly talks about using grids to collect electricity. You have your your um I think it's helium is the byproduct. Whatever your whatever your fusion reactor is, your alpha particles are going to shoot into this grid and then this grid is going to collect and turn this into electricity, direct energy conversion for us. And they're using industrial strength Hastelloy screens. For all I knew, that could have been a made up word. It's not. This is like some special metal that can withstand super high temperatures and corrosion, like exactly what you would want for a fusion reactor.