The Polywell/TAE Connection

Video Transcript

# The Polywell/TAE Connection Carl Sean could not have predicted 2021, but he did see it coming. He wrote the following back in 1995, and we quote, "I have a foroding of an America in my children's or grandchildren's time. When the United States is a service and information economy. When nearly all the manufacturing industries have slipped away to other countries. When awesome technological powers are in the hands of a very few and no one representing the public interest [music] can even grasp the issues. When the people have lost the ability to set their own agendas or knowledgeably question those in authority. When clutching our crystals and nervously consulting our horoscopes, our critical faculties [music] in decline. Unable to distinguish between what feels good and what's true, we slide almost without noticing back [music] into superstition and darkness. The dumbing down of America is most evident in the slow decay [music] of substantive content and the enormously influential media. The 30-second sound bites now down to 10 seconds or less. lowest [music] common denominator programming, credulous presentations on pseudocience and superstition, [music] but especially a kind of celebration of ignorance. Roll that around for a while. [music] Those were among his final published words. He died 10 months later. Here we [music] are 25 years later realizing just what he was trying to tell us back then. And they also asked, could you elaborate on what's oh the the uh Gorgon Gorgon stare that uh Ashton Forbes has spoken about both on social media and here on the show. I haven't had Ashton on here in a while, but the last time I did have him on, he spoke about that program uh Gorgon Stair and basically wanting to know, can you tell us a little bit more about what that is and why it would be so secret? >> Yeah, I can't. [laughter] This is the part this is the part by the way where I said I'm not sure you're going to be able to answer it if it's really in your wheelhouse. I figured you would know about it but I figured you probably can't talk too much about Gorgon stare. But I mean can you say anything? >> Yeah. >> No. [laughter] >> Fair enough. But it is real. It does exist. >> Yeah. I would I would say that Ashton's very good at his research. >> Okay. All right. I guess Ashton Forbes, you know that super jacked guy. >> Malaysian 370 contact 97. >> Breaking news tonight. A Malaysia Airlines flight with [music] 239 people on board, including four Americans, has gone missing. Even as these [music] grainy satellite images released today by the Chinese government, >> why shoot a danda out of the hostile? Our technologies [music] permit us to manipulate time and space. >> Why magnes? [music] >> They need distance annihilate. >> This country is very powerful, far more powerful than people understand. [music] We have weaponry that nobody has any idea what it is. And it is the most powerful weapons in the world. [music] Not even close. I remember the line from [music] Hindu scripture [music] is trying to persuade the prince that [music] he should do his duty and to impress him takes on his multi-armed form and says [music] now I am become death the destroyer of worlds. [music] I suppose we all thought that one way or another. Welcome to the live stream everybody. Oo, my thing's not centered. There we go guys. Thank you for being here. Happy Friday. Fusion Friday. Free energy fusion Friday that it is today, guys. OMG, do I have something for you. First of all, guys, let's pull those videos back up again. Let's pull those videos back up again, chat. Specifically, I want the color. I want the thermal. I want the thermal. Pull it up in front of me right now. Right now. Give it to me. Oh man. OMG. I want these orbs in my eyeballs. Give me these orbs in my face right now, guys. How did nobody figure this out? How did nobody figure this out? There are fusion scientists that know what we're looking at in these videos. I want to point two things out to you right now. This must be this must be a high beta configuration fusion reactor. Must be. Must be. No question. Previously I said this must be a field reverse configuration, which is a high beta configuration. And then a couple days ago, I found out there's another there is another high beta configuration. Field reverse configuration is not the only one. Turns out there is another. There is another out there. And today I'm going to announce that there is a connection between the two. I've been wondering how is there a different high beta configuration that's out there. Well, let me first explain why this is high beta. Two things. Ready? The size of these orbs. The size of these orbs. I mean, that's an airplane. You guys have been inside a Boeing trip 7 probably before. You know how big one is. It's like 10, 12 feet to the roof, right? Maybe even a little bit less, maybe even like 10 feet. But, you know, there's cargo cabin. So, these orbs are maybe 20 feet in diameter, right? 20 feet in diameter, something like that in these orbs. That seems large. If you were to look at it, it would seem really big, but it's actually pretty small for a fusion reactor. In fact, you're pretty much pushing the limits of how small they can be for even a high beta concept. And a low beta concept has to be way bigger than that. A low beta concept like tokamac designs have to be way bigger than that. So that's number one reason. Number two reason in a high beta configuration there is a clear boundary between the plasma and the magnetic field. Think about that. Think about that in your head. What does that mean? There is a clear boundary between the plasma and the magnetic field. That means that if you were to look at a high beta concept, it's going to look like telekinesis. is going to look like the plasma is being bent by the air bender, the plasma bender, which is what it looks like when we look at these videos. We can tell we're not looking at the wall of a craft on those plasma balls. We can tell we're looking at the magnetic field around them and the plasma is confined within them. You can tell because they morph around, change shape a little bit. There's a great color gradient like right around them as well. So these are two tall tale signs that what we're looking at here is a high beta concept and I previously thought field reverse configuration was the only one and now we have found it's not just field reverse configuration the polywell fusion reactor which is a combination of magneto inertial confinement and uh inertial electrostatic confined fusion is the answer. Okay, let's let's finish watching it because I can't not watch this video all the way to its end. Notice the temperature of the orbs, too. Very important. I'm still pretty confident that's a sign of nonequilibrium. The fact that the orbs have this like perfect heat signature in them spinning around. Spinning around in there. Incredible. Yeah. I mean, you can tell that's a plasma field, right? When you look at these orbs, like pretty much pick any frame that that's not a solid structure right there, right? Like that's got to be a plasma field. So, we're looking at we're looking at the magnetic field confining the plasma in there. And you can see the plasma is kind of being confined to one side. I think we're actually starting to become a threat. In fact, I was going to say that I think even the people watching this probably are on the like the high end in terms of plasma fusion physicists and engineers. Okay. Let's get to the the good content. I'm just going to run right through this, guys. I want to go back and take another look at Salvatore Pyiss's paper that I was showing you guys on Wednesday. Let me read something to you. I've never had a good bio for Salvador Py. We need to get him back on the podcast ASAP. I'm gonna Let me just read this bio in the bottom right corner here. Salvatore Caesar Py received a PhD in mechanical and aerospace engineering from Case Western Reserve University in Cleveland, Ohio. He was a NASA graduate fellow with the NASA Glenn Research Center in Cleveland. He was with NAVAR and NAD, basically a bunch of like special projects, Navy stuff. Naz Pax Puxit River. He was a general engineer and advanced concepts analyst with Northrup Grumman Aerospace Systems where he was involved in defenseoriented work. What the hell does that mean? What the hell does that mean? He is currently with the department of defense, the department of navy strategic systems program in Washington DC where he's involved a permanent civilian capacity. What does that mean? What do what is a permanent civilian capacity means? He has advanced knowledge of theory, analytics and modern and experimental and computational methods in aerodynamics along with air vehicle and missile design especially in the domain of hypersonic power plant. Who the [ __ ] says that hypersonic power plant? Hypersonic power plant in vehicle design. Furthermore, he has expertise in electrol optics and emerging quantum technologies particularly in laser power generation area and high energy electromagnetic field generation. Besides condensed matter physics, plasma uh such as the emerging breakthrough of uh field of room temperature superconductivity as related to the advanced field propulsion. As a relevant aside, it's important to stress the fact that his work has nothing to do with the paper at hand. What do you mean has nothing to do with the paper at hand? Chad, look at the [ __ ] references on his p on his on his uh paper. What year was this paper put out? 2019 it was published. Plasma compression fusion device initi enabling a nuclear fusion ignition talks about high beta. Look, I just Googled beta, dude. High beta. Here it is. Diminishes plasma instabilities talks about high beta talks about magnifying magnetic field strength. And look at the references. The second reference is Loheed Martin's compact fusion reactor. The second reference is Thomas Maguire. Thomas John Maguire, the compact fusion reactor is the second reference on here. The third reference is Ro Dr. Robert Bousard. The Polywell fusion reactor. The seventh reference down here. The seventh reference, high energy electron confinement. This is the updated scientific paper by the people that the guy that took over Ju Yong Park took over. Juang Park took over from Robert Busar, the Polywell confu fusion reactor. This is the updated paper about it about whether or not it would work. S has that in here. This shows that he's watching closely and he's picked out specific people that he thinks hasn't figured out. And who are those people? It's the Polywell fusion reactor, Lheed Martin, and then the guy that fig picked up the Polywell fusion reactor after uh Dr. Bousard died. Okay, hold on to that thought. >> [snorts] >> because I've been doing some research, chat. I played the clip at the beginning for a very good reason. Ashton is very good at his research. Which where do I have it up? Sorry, I got a bunch of pages up here. That one. It No, that one. This one, I think. [snorts] Okay. So, I was looking at this was uh EMC's thing here. Where is it? Why is it not popping up? Okay, one sec, guys. I don't know why this is being painful. Okay, there it goes. Okay, so here is uh Gang Park EMC. Uh what was this from actually? What was this document? The fork in the road from electric power to fusion. This is the EMC company. That Polywell fusion company. I was looking through this. You guys can see this right here. Okay. Because you can see the configuration here. I just wanted to look at some more. Look at the references. What was this one? And here's the paper. This is that paper. high energy confinement in here. Um, I'm going to read the the uh excer or the uh whatchamacallit abstract here for you guys. This is the one that S was referencing here. I think we report experimental results validating the concept that plasma confinement is enhanced in a magnetic cusp configuration when beta is of order unity one. Okay, this is the other thing I want to point out to you guys right now. Okay. Yes, this is the eusion luring channel. This is the very good we very good read good and this very learning channel. Now, um it's not about getting your beta as high as possible. It's actually about getting your beta to one. It's about balance. You want the plasma pressure to balance the magnetic field strength. You don't want it to overpower. You want it to balance out. That's what I've learned today. I hope this ends up being true and I don't have to backtrack later on because if this is true, the reason why this makes sense to me is that this this speaks to stability, resonance, stability, achieving like, oh, once we get in balance, then we can just float. Then we just create our smoke ring. It's not about one side or the other. It's about getting everything perfectly in balance. We report. And so that's what it says here is that we need to get to unity. This enhancement is required for fusion power reactor based on the cusp confinement to be feasible. The magnetic cusp configuration possesses a critical advantage. The plasma is stable to large scale pertabbations. So the magnetic cusp is bit good because if you hit it, if you bounce it, it's going to stay stable. So this is perfect for something to fly around in the sky. Early work indicated that plasma losses loss rates in the reactor based on cus cusp configuration were far too large. Grad and others theorized that high beta at a sharp boundary would form between the plasma and the magnetic field leading to substantially smaller loss rates. Well, there you have it. When we talk about loss rates, we're quite literally talking about the plasma just escaping into the air. That's what we're talking about. So, if you keep it confined, they're saying, "Oh, you're going to have this sharp boundary." Uh, that's what we're looking at in the MH370 videos. The reason why it looks like a bubble of plasma because you're seeing the sharp boundary of the magnetic field. Uh, let's see what else did he say. Um, the current experiment does validate the conjecture that confinement is substantially improved at high beta. This represents critical progress towards understanding the plasma dynamics in a high beta cusp system. So essentially this scientific paper is saying that we are going to achieve confinement when we look at pla uh fusion and we're going to just solve fusion on live streams. Apparently some healthcare IT guy is going to just solve fusion for the world and live streams because that's the banana republic clown freaking world we live in. Sorry, I just had to stop there for a second so I don't crash out. Okay, the one of the biggest problems with fusion is that we don't have confinement. The plasma leaks out, doesn't stay confined where we need to confine and we need to confine it for like a really long time. Especially if the goal is ultimately have a little Jarvis sun floating around. We need perfect confinement, not just like pretty good. It needs to be perfect. So it turns out high beta, boom, there's one of your answers right there. Start with high beta. That that knocks out the problem of confinement because we're going to basically have our plasma and the bubble all our thing is going to be all around it and it's not going to be able to go anywhere. Cool. Neat, right? Okay. Now, let me show you some stuff. Uh let's get to the good stuff here. Where where's my dude's uh LinkedIn profile? Um so, was it Jay Young Park? Yeah. Okay. I I I said Jong. It was Jay Young Park. My bad. My bad, fam. Okay, there he is, chat. This is the guy that's the author of that scientific paper. And I was like, hey, I should follow him and send him a message. So, I did that. Of course, we're not going to look right now and see. So, I started scrolling down. Energy Matter Conversion Corporation. That's right. EMC squared. Okay, that was the name of the the company that Boostar started. What? Wait, wait. What? Hold hold hold up. Lead scientist strategic R&D T AE technologies fulltime since April 2019. What? [screaming] Um. Uh. Huh. Uhhuh. So, I have questions. I have questions now. Now, I'm starting to wonder why I'm not dead. It's It's amaz I literally Someone was just thinking I'm just How am I still alive? I'm actually starting to become a threat now. I think starting to become a threat now. I just love coffee chat. It doesn't matter if it's nighttime. Um, so the guy that worked on the electrostatic fusion device took over from Bousard. The guy that got handed that down, that company went defunct in 2019. I looked it up. Just take my word for it. Check it out. Polywall Fusion went defunct in 2019. Or EMC Squared, sorry. EMC Squared did. They might be back now because what is this up here all about? But he goes and jumps ship and he joins Trial Alpha Energy and he's been hanging out at Trial Alpha Energy ever since. And just a couple weeks ago, Trump Media Group bought this company, chat, what the [ __ ] I can't avoid swearing cuz what the [ __ ] man? What is actually happening here? So, we're going to watch this guy talk about the fusion reactor, the Polywell fusion reactor tonight. I planned on watching him talk about the Polywell fusion reactor anyway. And then I looked up his LinkedIn today and I said, "Uhhuh, that's interesting." So this fusion world is a lot smaller and more incestuous than we ever imagined. And if you thought that's all I had, [laughter and gasps] Ashton is very good at his research. Remember it. Ingrain it. ingrain it into your memory and never let you never forget it. Never ever forget it. Ashton can just learn [ __ ] fusion. Doesn't even matter. Uh uh. I do healthcare it. I'm just going to pick up fusion as a little side project. What is this? What is this that we're looking at? US Japan workshop on small plasma and accelerator neutron sources 2007. 2007. What do you guys think we're going to find in here? Let's scroll down a little bit. Sponsored by the DOE. Of course, sponsored by the DOE. Now, I can tell you guys because I do a lot of research that when I see University of Illinois and I'm thinking fusion, the first thing I'm thinking is George Miley. George Miley, professor emeritus, University of Illinois. [snorts] What's going to happen here? Oh, look at this. Welcome talk. George H. Smiley. You know what? Let's keep scrolling down. Let's just see what we find here. Ironically, it was a little bit hidden. It was a little hidden here. But look at this one. Improving IEC particle confinement times using multiple grids. Do I have that one up? Have we looked at this paper before? I think maybe we have. Um, got too many windows open here. So, this paper, now that I have it up here, it doesn't show his name, but the person that's co-author of this paper is Thomas John Maguire. Wait for it. Wait for it. As far as I'm I'm pretty sure Thomas John Maguire is this guy. Fusion is a much safer option. a next generation of airplanes that doesn't rely on fuel and can just stay aloft. Unlimited range, unlimited endurance that it's either him or his dad. I haven't quite figured out if there's a junior or what's going on here, but you get the point. It's either him or it's his dad. This guy you're looking at that built the compact fusion reactor for Loheed Martin is Thomas John Maguire, co-author of that paper right there. Weird his name doesn't show up on this list, but he is the co-author. I've got the paper up somewhere here in the background. I just have too many windows open, so I'm not sure which one it's at. Uh I I posted this screenshot. Oh, I posted on social media on Twitter. That's why. Okay, sorry. All right, here we go. I was wondering where I put it so I would remember to get it later on. Here you go. Would you look at that? [snorts] Improving IEC particle confinement times using multiple grids. TJ Maguire and it's MIT. I mean, that's the right location. That's crazy. Yeah, he was pro. My guess is what's happening here, and this is this is just like I feel like we're in the middle of a [ __ ] movie right now. Like, just think about it. You can see the knowledge being passed down. You can you can watch as it happens. Thomas John Maguire was underneath this guy who I'm going to be researching next, by the way, R. Sedwick, probably Robert Sedwick. He was working with him probably as a student would be my guess in 2007 and he gets exposed to the secret sauce IEC fusion polywell's device and then what happens [snorts] Martin gets a whiff not just anybody from Loheed Martin who's our favorite who's our favorite Loheed Martin engineer Charles Chase How important is Charles Chase? I'm starting to wonder like I wish this guy would talk to me. I have so many questions because Charles Chase is unlab is based out of MIT and Charles Chase was with Loheed Martin for like his whole life and Thomas Maguire joins Loheed Martin a few years later and builds them a compact fusion reactor which is basically not just a replica of Polywell. It's an upgrade. It's the upgrade. It's Homelander versus uh what was Homelander's dad? I forget. Whatever his dad's name was. It's the upgrade. So now we're actually watching how the science and knowledge went from like the early 2000s and started getting passed around through these black project engineers then passing it down to their trusted proteges and it's starting to come out. And my question for Salvatore Pais is what the heck man when did he get exposed to this? What's going on here? How did S know about Loheed Martin? How did he know about Trialpha Energy? How did he know about Polywell? Because they are I mean clearly his fusion design is based on those same concepts. So what is he just a super fan? Lucky Salvatore Pis just really loves plasma fusion and he's just a huge super fan. I mean, come on, man. I read you the bio. Strategic systems, advanced advanced concepts, like you know, fusion, electromagnetics, like uh room temperature super conductivity. What are we talking about here? Okay, what else we got? Okay, play a couple clips and then I want to watch a video of this guy. Um, which one do we want to do first here? Oh, before we talk about that, I do need to point this out. Where's this at? Oh, add this back up. What you're looking at here is not a joke. I mean, I wish it was. I wish it was. What you're looking at here is an image of Stranger Things's wormhole. No, no, it's actually, sorry, this is not the actual wormhole. Their whole wormhole concept made no sense whatsoever. I was thinking about doing a whole debunk video where I just take it to pieces, but then I realized I'm not a loser like, you know, the Corridor crew or some of these other people that do kind of [ __ ] like that. So, I'm not going to waste my time. I'm just gonna say no wonder we're not even close because Stranger Things butchered the physics so bad that I'm guessing they just asked AI to write up some [ __ ] This was the negative energy. You're looking at the negative energy. They go Dustin goes the scientist. It's something it's like a wor It's a wormhole. It's a Einstein bridge. It's a wormhole between point. The scientists say it requires the the exotic matter. the exotic matters, the swirly thing that we walked past and you're like, none of this makes any sense. First of all, a bridge would be the part that would look look like this. The the Einstein Rosen bridge would be the part that looks like this because you need to like it's like the doorway between the two points. The doorway isn't just like a nebulous location anywhere you want it to be. That's what the wormhole is, brother. Also, exotic matter is not literally swirly Harry Potter mist. You're going to make me lose my [ __ ] It's like they were watching my live streams. They were like, "How can we just piss Ashton off the most? How can we get it so wrong that he gets super mad and gives us attention by talking about my our stupid ass show?" Like, "Oh, I know. Let's literally make it some mist that's floating around in a random location inside the other dimension. And when it comes to the location of the wormhole, well, it's just kind of anywhere. it just rips open and then you're just between the two zones like [sighs] god damn it. So, no wonder nobody in this world understands wormholes because this is what you get taught in 2025 when you're watching like the biggest mainstream shows ever. They can't get literally anything right. Nothing right. >> [sighs] >> I tell you what, just at this point, just copy and paste the MH370 videos into your shitty show. Nobody's got copyright on them because they're leaked military videos. They should have just had this just be the MH370 video just getting zapped by some orbs. And people would be like, "What the [ __ ] was that? That didn't make any sense at all." I'd be like, "Look, it makes more sense than whatever other [ __ ] they were going to put on." Trust me. You're like, "There's not even a plane in this in this show. Trust me, it still makes more sense than whatever this is supposed to be that I'm looking at here. There we go. Okay, sorry. Back on track. I promise there won't be any more politics or entertainment talk tonight. The rest of it will be straight up science. [laughter] Okay, I want to watch two little clips real quick. Uh, one is literally George Miley. And this is George Miley. Like when I tell you guys this stuff's just hiding in plain sight. Where? Where is he? Did I not favorite it? I was just watching this clip five seconds ago and I didn't bookmark it or something. One sec. Um I think I This guy's got it. Okay. Well, whatever. We're going to watch this other clip while I look for that one. I had a George Miley Cold Fusion clip ready to go here, but uh I don't know. Maybe it's on my phone. I I'll pull it up. You know, in the meantime, here is Dr. Park and shout out to Zero Point Energy Disclosure. Guys, by the way, I do need to shout you guys out. Zero Point Energy Disclosure, Fly Ether, uh Tom Hudson, and several others. You guys have been cooking on social media like the content and the quality of the content and the science. Oh, and also SC stoiccribe as well. All just amazing cont. Keep it going. This is how we win. This is how we educate people. Put out the content. Put out the clips. Put out the knowledge. Put out the little tidbits of knowledge about how things work. put out the clips of the dudes talking about the Cold Fusion cover up, whatever. Right? This is how we make this stuff interesting. This is how we get it out to the mainstream. One of the things I'm starting to realize is like, you start to wonder, how in the hell has this been covered up? And you realize it's not some active campaign of control, although it kind of is. It's more of a passive ignorance that we have collectively. It's a systematic issue that we've got to work on. So, we got to reverse that. Thank you guys very much for your hard work. Here we go. So, I want to >> with the confiner. >> We're going to listen to some more of him in a second, but this is a warm up. >> Change the magnetic field and form the whiffle ball. Once it did form the whiffle ball, we were able to combine the electron beam. We couldn't do it before. >> Can you describe what the whiffle ball is to people who don't know anything about it? The whiffle ball is if you inject a very high pressure plasma into this cosmagnetic field produced by the coil plasma will modify the magnetic field dramatically. So you now have a equilibrium magnetic field between plasma and magnet coil magnetic field very different from what you start with and it actually literally looks like a ball. If you look at some of the more recent simulation we did, we can actually visualize almost like the ball like structures inside the device. So in that space plasma does get contained because they don't really have a easy access to move out of the reactor. So that's what we call whiffle ball. And Dr. Brasard has a very interesting cartoon. You start with the device by injecting plasma. You start expanding the whole system and one property of that is it'll slowly close down the hole toward a very small size that looks like the children's whiffle ball they play and learn how to play baseball. Historically the better known as high beta cost equilibrium magnetic field. It's technical kind of word. In a solid magnetic field system, the presence of high pressure plasma will modify the magnetic field that helps to close down the losses sort of the losses of the magnetic system that >> Yes. And for the people pointing out that people are stupid and that during COVID like hundreds of millions of people got a shot because a bunch of retards told them to go get put a bunch of drugs in their system for a cold virus. Yes. Yes. Don't remind me. Don't remind me, chat. I'm barely hanging on here. My hopes for humanity are at all-time low. I think the CIA just doesn't bother taking me out because they realize anybody that figures this out is just going to become so depressed with humanity that they'll just give up. That might be right. Might be right. Okay. So, what is he saying there? He's saying that this high beta concept is spherical. Produces a sphere. He's saying that this high beta concept will comp will confine the plasma. It's going to confine the plasma as we actually need it to form this balance and it's going to improve the confinement time significantly. Significantly, not by a little bit. There's a video that I'm going to show and just in case I don't play the clip of it, I think he says the confinement time goes up like 500,000 times or 500 5,000 times. Anyway, confinement time goes up a lot. Now, why is this important? Because in the MH370 videos, we have a ball of plasma that is not just confined for like a a nanocond or even a half a second. It's flying around in the sky. So, there's probably got to be something inside of it. But also, how are they getting the fusion to remain continuous? Most fusion reactors out there like can barely stay on for just a few seconds if that at all. Okay, one more clip and then we're going to go listen to this guy. So this is George Miley. So we just just if you're just joining us right now, we just connected Polywell Polywell Fusion to Busousard Ramjet who last live stream we talked about that got incorporated into hypersonic designs with Paul Sizz by Paul Sizz possibly. Now we just connected that to George Miley who's worked with Paul Sizz on the 2005 paper the dense plasma focus paper. We connected that to Salvador Py. Salvatore Py is referencing all of these guys in his fusion reactor patent. And we connected it to Loheed Martin. Connected Loheed Martin. We see that Loheed Martin guys were like the guys that later would go on to build compact fusion reactors were at this one conference with George Miley. And it turns out the Jay Young Park, the Korean that worked that took the research from Dr. Brousard after he died in 2007. Then in 2019, 12 years later, he kept the research going. He built more devices. He built the what is it? HM07, HM08. We're going to look at them. Built them, tested them, learned scientific discoveries from them. joined Tri Alpha Energy in 2019 and just a couple weeks ago, 2025, Donald Trump's company, let's just say they merged with them. They acquired this private company known as Trialpha Energy. I would say that you can't really blame me if it turns out that the orbs aren't exactly field reverse configuration. because all of this fusion technology, it's like, you know, they're all very very closely related. The fact that we can even get to a point where we can actually narrow down on a specific configuration, a specific style of fusion is impressive to me. I didn't know we would ever I was thinking earlier today, I never would have thought we would be able to actually figure out like what kind of fusion, what kind of company is actually making those orbs. I still [clears throat] think it's locked, but could be it could just be like in-house DoD stuff. Anyway, the cover up of fusion has gone on for a long time. Uh, at least back to 1989, possibly even a lot longer before that. Ponds and Flechmen understood that fusion doesn't have to happen at super high temperatures. And this revolutionized the fusion game. And smart fusion scientists like George Miley always considered that to be a possibility because they understood quantum mechanics. They understood that fusion happens because two ions get close enough and they tunnel quantum tunnel together and they fuse. Quantum tunneling is the major reason for why fusion occurs. So they knew there must be some possibility for uh low temperature fusion to happen. It's con within the realm of theoretical physics. So, here is George Miley talking about it. And this guy, for everybody out there, if you don't have to know who all these people are, just know these are highly highly respected physicists and engineers. Like, these are people where like they don't talk about all of what their contributions are because they're like national security black project stuff, including George Miley 100%. And here's the man himself. when coal fusion is first announced and caused such a commotion um and then many people criticized sponsor and became quite a negative thing criticism uh the community decided that they would hold many of their meetings outside of the US because that would freedom from hopefully the mounting criticism seem to be unjustly put against it here in the US >> it's been 23 years since Drs Fleshman Ponds made their initial announcement of a new form of energy that would be clean, cheap, and abundant. Um, now it's very clear that this reaction is in fact real. >> Um, what what do you say to skeptics today that are still saying that uh this is a fraudulent claim? >> Wholeheartedly disagree that anything's fraudulent that um certainly Drs. Hans Flashman and I've known both personally. Uh they are great scientists. the whole web of events that caused what I think they would agree was premature announcements public that caused all this this storm of emotions was just unfortunate and the a personal personable personal ramifications on the individuals is so unfortunate but you know that's happened to many people in the field field had series of tragic events occur where >> you see that you catch that little uh eyebrow jump that he just did there says there's a lot of uh tragic tragic events that uh seem to occur in this field. I actually think he's doing the conspiracy theorist thing right there. Like because you think about the context of what he's talking about and he's like I know Pawns and Flechman, they're good scientists. They did not defraud anybody. They could have been wrong, but they're not defrauding people. They're not doing fraud science. And that's how it gets framed in the public. Because this is a guy speaking that understands the political reality of the suppression of fusion. He understands that people's lives and careers are going to be destroyed for national security. When I listen to this guy go, this is a guy that knows what to say and what not to say, and he realizes he's not going to disclose all this. He's not going to be the hero, whistleblower, whatever. He's just going to be a dude that tells you, "Here's some sauce. You can take it. You can leave it. The people that know will respect me. People that don't, who cares? F them. Let me just go back like 10 seconds and look. And now, now that I gave you that context, watch that again. >> You know, that's happened to many people in the field. F field had a series of tragic uh events occurred where >> see that you see that blink >> workers in it have been >> tragic events. >> All this is unfortunate that emotions grew so high. It should have been done in a scientific fashion and I think that would have been so much so much better for going but I have nothing but highest respect for Dr. one last such a great scientist anyone would be privileged to to follow their lead in science it was some way released to their paper pretty early around the world and facts by the time I got to me was so mutilated I had trouble reading but I tried to understand it the best possible and my uh I don't type of work I do I usually don't like to repeat someone's work my my purpose my thinking was not to try to repeat what they've done but try to think of some other altered way of doing it and you know being a plasma type person thoughts that waste your mind What we have to do is load bladium in some way. Why not load it plasma plasma rather than electrolytically? >> What? Wait, wait, what? Uh-uh. Uh-uh. Chat, did he just say, "Why are you putting metal in water? You should just do it in a plasma instead." Holy [ __ ] chat. Holy [ __ ] So, why is this significant? Uh, for the uninitiated, let me help you guys out. Why this is so big? Why does cold fusion work? Ponds and Fleshmen took palladium metal rods, metal rods, stuck them in water, heavy water, dutyium. What occurs is the water seeps into the metal. Now, not visually, you can't see it, but on the molecular level, the hydrogen atoms sneak inside the lattice structure. So you can imagine this crystal lattice structure and the hydrogen atoms sneak there's enough room for them to sneak inside in the in the little kind of in the uh in the whole grid and then what occurs is you put a charge through it and you cause things to move a little bit and then fusion happens. So if that's the mindset for how it works then plasma is much better answer. Why? Because in a plasma everything can move around freely. Everything can move to whatever location it wants to move into. So because in a plasma we allow the electrons to rip free and now the electrons can move free. So go straight to the source. Don't have it be a solid. Have it be a plasma and try to control the plasma and you should be able to do the exact same thing. Plus, I mean, when we talk about doing fusion, we're pretty much always talking about doing a plasma. Now, the reason for that is because the high temperatures, but there's no reason why it has to be super high temperatures with the plasma. Wow. Wow. I didn't know anything about electrochemistry. I I learned later, but I did. So, anyway, so those were thoughts. So, my thinking was entirely different, you know, saying, well, is what they is this what they've done? Is that correct or not? My thinking was, well, this is really exciting. Let's find out what's there. Now later I had the privilege although I don't know it turned out to be exactly a privilege. Uh I I did testify in the first congressional hearings. Okay. >> Wait he testified in congressional Oh he testified in the cold fusion congressional hearings. Wait. What the hell is that true? Okay, we're gonna We might have to look back at that, guys. Not tonight. That might be something else. If somebody can find a video of something like that. I'm looking in the chat to see if anybody knew that. George Miley testified during the cold fusion hearings. Yeah, we are deep in some [ __ ] chat. We are deep in some [ __ ] Okay. Let's learn some science. Let's learn some science. I've had enough. Okay. Uh where's my thing? Here it is. How far do I get? Pretty far. While I was researching, I came ac across this interview. And this interview is from 2016. There he is. Jay Young Park, the man, the myth, and the legend right there. He's about to teach me, you, and everybody who watches this later on how Fusion works. Well, this is going to be more of an advanced level. We're not going to watch the whole thing, but we're going to watch uh 20 minutes or so, maybe even longer than that, and I'll try to summarize the rest. I've already watched most, if not all of it. So, let's start with diamagnetism. What diamagnetism is and why diamagnetism is important starts somewhere around here. So here's EMC squared or yeah EMC squared. This was so just if you're understanding you're trying to keep up in the timeline here because now we have a man we have probably one of the most comprehensive timelines of development of fusion especially inertial electrostatic fusion that I could have ever imagined here. So Loheed Martin is working with George the Loheed Martin guy is learning under some other guy in 2007. They're going to this conference with George Fusion is represented there. Polywell fusion basically in 2019 gets absorbed by TAE. This is three years before that where Jay Young Park was already working on Dr. Busousard's advanced versions of his reactors uh from an experimental and research perspective. Here we go. >> EMC took on it. Over the next 20 years, we had built several devices WB1 through WB8. I guess two is here, four is there, six, five and seven and eight. I'll show a scale about a what it looks like. It it's about this big. So we try really hard confining high energy electrons in this system and reality is none of this device all the way up to eight succeeded combining high energy electrons. >> So you kind of wonder well the idea was great but something's not clicking here either we're missing it or we're doing something wrong. So it gave you time to think what are we missing? So, we're going to take a look, second look into the poly well and look at it differently, not just isolating those queries. >> Hold up. Go back to that. Look at this image. This is from 2016. Where was that? They only put that up for like five seconds, >> but something's not clicking here. Either we're missing it or we're doing something wrong. So, it give you time to think, what are we missing? So, we're going to take a look. >> Holy smokes. Let me get rid of this. Uh, second look into polywell. Diagnetism in plasma and more. Magnetic levitation in superconductors. Current produced by plasma can cancel out magnetic fields. This effect is called diiamagnetism and is proportional to plasma pressure. With increasing plasma pressure, dynamics of polyeld changes due to diiamagnetic effects similar to the cause of magnetic levitation in a superconductor. So now we have an analogy here is that this is visually going to be similar. The plasma is your superconductor or uh I should I don't know which was which in this particular case but your plasma if you look in the bottom right the low beta concept you can see that there's not a uniform distribution and in the high beta concept everything is uniform and you have this sharp cut off between the plasma and the magnetic field and now that I'm looking at this I'm having a revelation right here. The orbs are the opposite of this. Whatever they designed with the orbs, it's on the outside. We're looking at the poloidal. I don't know. Never mind. Let's keep going. Not sure yet. Now, it says on here as well, beta equals plasma pressure divided by magnetic pressure. And you're trying to get to one. I'm trying to get to balance out. Note fusion power scales is beta squared and r cubed. So it it points out here I think he mentions it. >> I can look into the poly well and look at it differently not just isolating those grids but what is really going on and what you need to do. So it's called diiamagnetism in plasma. What makes a poly well interesting is this concept called diiamagnetism. This happens in plasma because in plasma it's not a neutral matter. Electrons and ions are now free to move. When they move, they generate the current. When they generate the current, the direction of their current is try to cancel out the magnetic field that was imposed onto them. So that's the word diamagnetism comes about. >> So I think that's the connection right there to field reverse configuration. I'm pretty sure that what field reverse configuration is doing is when the the field reverses, you're creating a force-free condition uh field a condition where there's no field. This is what you're trying to do in a high beta concept. Now I understand why forcefree timeh harmonic plasmoids is such a big deal because what we're trying to do is in the middle we're trying to make it where the plasma pushes out the magnetic fields. So in the middle all you have is the plasma bouncing around and it's stuck there in the middle. And ideally, it's all trying to move towards the center to fuse together. So you need there to be an area in the middle, a null zone in the middle in this configuration and the plasma is going to counteract the magnetic field. The plasma is going to counteract it. more plasma you have this diamagnetic effect becomes stronger and stronger until you can cancel out all your magnetic field in the system. So what we were looking at is with increasing plasma pressure the poly well dynamics will change dramatically due to this effect and in a way this is somewhat similar to the magnetic gravitation to the in a superconducting material pole m effect and that's the cartoon pictures of that you can see the reputation on it so that's sort of the effect we're looking at it here I'm going to define a parameter called beta which will be used extensively throughout the rest of the talk it's the ratio between plasma pressure and magnetic pressure so more plasma for given magnetic pressure, you have a higher beta and that will be an efficient use of power because it turns out the fusion power output goes up as a beta square and a volume. So if you want to make a small reactor, you have to increase the beta. If you have a small beta, you have to make up for that by making the device larger. That's the direction. What do you just say right there? Huge. If you have a high beta, the device can be smaller. Low beta, device has to be a lot bigger. Those MH370 plasm orbs have to be a high beta concept. They have to be. >> And here's a pictures about it. I don't know whether you can see the line. You can if you look closely there's a white lines going through. That's the magnetic field. The colors are plasma. When there's not enough plasma, even though they try to cancel out the magnetic field, it's not strong enough. So you can see magnetic field penetrate into the plasma. When you have sufficiently high plasma in the system, there's no magnetic field. All the fields get pushed out. So in the big region here you have a field free and plasma region the magnetic field get pushed around at >> field free region there it is >> edges of the boundary >> and you can see the boundaries >> if you have a hard time understanding this that's okay it's we'll have some more slides to do it before I want to do that I want to just talk a little bit about short history this will help you understand the importance of the diamagnetism in polyonol so this is a snapshot of the US fusion program in 1958 Okay. And the stories on the next few slides are from the book from project show written by Amasha Bishop. And Bishop was the program manager for the US fusion program in 1950s. >> I'm going to skip ahead a little bit here because we know about Wait, what was this thing about plasma stability? Let's see. What does he say here? Uh yeah. Okay, we're going to step ahead >> being developed that area while the inside which is a stable is much more quiet. >> Yeah. >> So that was the point he made it back in 1954. Turns out he magnetic fusion. >> We're going to skip ahead a little bit. We're going to go to 32 minutes here. Oh yeah, right about here. >> So we know it's stable. We know that I mean the whole point is that this configuration high beta configuration is stable. Here's the picket fet fence, the cusp configuration. [clears throat] This was one of the first configurations that I looked into because it was rumored to be connected to Loheed Martin's design, which is that you have this picket fence of magnets and the plasma is going to come through it. It's going to come into the inside. It's going to get trapped because it's going to try to go out the back, but you're going to have these cusps that squeeze it tight so that it bounces back in here. Now you can see why there's this direct connection between field reverse configuration and the poly well design. I I have never heard of any of the field reverse configuration talk about it. But the point is electricity positive and minus charge. That's the only thing they're adding in here. They've added a negative potential well in the middle. How? Simple. Simple. When you shoot your electrons into your well, into your magnet field, they get trapped. The electrons are not heavy enough to escape outside of the magnetic field. The ions are the the electrons are not. So, you create a zone here in the middle that's filled with electrons. What does that mean? That means your zone is negatively charged. The same way where if I were to rub my head with a balloon, the balloon's or my hair is going to go out like this. But this in this case, this negatively charged well is going to start drawing nearby ions into it, right into the middle. That's the secret. And even in the field reverse configuration, they probably don't talk about it, although they might talk about it. They're probably trying to produce that same thing in the middle. If they aren't, they should be. If they aren't, they should be. And why not? Because what's producing that is the plasma itself. Okay, here we go. Cost cost came to existence. Let me just go back here quickly. I forgot mentioning it. There's a cost geometry started about 1954 and 55 at NYU. [clears throat] cost studied it because it is an answer by gentleman named uh Jim talk Solomon hey I'm going to create a system where the coils are positive in and out and out and in change the polarity to create a magnetic field looks like the picket fence along the garden British garden and in the plasma everywhere you look at it you see a bit curvature therefore it turned out to be absolutely stable against interchange instability it's the first magnetic system to do so this is What? So he just explained the picket fence, right? [clears throat] He says what you do is you have these magnets and you reverse the melonic polarity in every picket fence. Positive m negative positive negative, right? Reverse them. And then so you're going to have the plasma come in. It's going to weave like this. And I love that. I think that in order to create stability, that's what you have to do. You have to force it down to this channel that you want it to go. And it was rumored that the Loheed Martin compact fusion tractor was a mix of the picket fence with the uh F FRC field reverse configuration. So this is clearly using the cusp design that he's talking about right here. And I think they learned something. I think the Loheed Martin guys, Thomas Maguire, Charles Chase, I think they learned something from these guys. >> So they thought, well, this is a good idea. Turns out when they run the experiment the losses as you pointed out through this field line was super fast. So it was like almost like well it looks stable but there is hardly any plasma in the system and that was a problem until somebody came into and thinking well let me think about this and that's the work by Harold Gw and his team at NYU they took a rather drastic approach in their view plasma diagnetism will do something. So if you happen to have a very high pressure plasma in the C they'll then push out the magnetic field and you'll have a giant area where there's no magnetic field in the system you'll have because magnetic field never disappears in nature you will push them and you will pile them in this boundary it'll dramatically change those interface between plasma and magnetic field region and when that happens the estimated the confinement property of the cost will be dramatically different and it will be a lot better. So we want some numbers about contemporary numbers about six coil cost. >> So he just explained the history. He said some smart old dudes once upon a time were like hey if we make this cusp configuration where we lock everything into the middle confinement will be a lot better because one of the goals one of those things we were trying to achieve is trying to get higher confinement. And so this science goes back to the 50s and it got forgotten which also red alert because remember what else happened in the 50s. Ronald Richtor was with Ron Peron in Argentina trying to make uh a fusion reactor in the early 50s and then this happens. It all goes dark and then decades later it gets picked back up and it turns out this was the secret all along. Turns out this was the secret all along and maybe no other configurations will work unless you have specifically high beta with this. Like it's possible guys that fusion simply does not work unless you have a specific high beta configuration because it's mirroring what we see in nature and there may be a small margin of error. This might be the kind of thing where like we can just make it happen. And it may be like kind of thing where like you have to have the very very very specific circumstances for fusion to occur. >> Just a seven Tesla and about a meter radius coil and trying to contain 100 kilob that's about a billion degree if you converted it. If you're in low beta pressure in these cases expected confinement time is about a microcond if you somehow grade is correct. Okay, so get ready. Low beta configuration. This is a comparison. One microcond. A microscond is probably a lot of zeros. A period and a lot of zeros and then a one. Very, very short period of time. So this means that if you were to see this, it would be like barely a blip. Like instantly just there and gone. Are we going to get a fusion reactor out of that? No. No. So how about high beta? And if it's in the high beta regime, according to his prediction, it's about half a second. So we're looking at about 500,000 times difference. Chad, half of a second. We went from a microscond to a half of a second. 500,000 times better. 500,000 times better. Doesn't feel like a margin of error kind of situation to me. When somebody tells me that, oh, we did high beta and our confinement went up 500,000 times. Do you know what my reaction is? Uh, holy [ __ ] What the hell did you do, bro? Cuz clearly you just found the secret sauce. That's not a normal amount of increase in confinement time. That's like a Oh [ __ ] I think you just found the secret amount of increase in confinement time. And even on a smallcale nonoptimized reactor, smallcale not optimized, they're still just doing research. They got half of a second half of a second of confinement on some janky garage reactor that they put together because again we know the truth. We've seen the future. Ambassador Beiju downloaded the information into my brain. By the way, I sometimes think that Dave Rossi just made up that story about the blue alien downloading the brain because he just doesn't want to be bothered to have to explain how science works to anybody. It's just easier, isn't it? I felt like I should have thought of that a long time ago. I kind of regret it. No, guys, it wasn't all the research, the studying, all the hard work. No, that's stupid. Don't ever do that. That doesn't lead to anything. Just wait for the aliens to download the information into your brain like a lazy person. That's how we do it. Okay, back on the task at hand here. 500,000 times improved confinement. >> That's like Well, as a physicist, that's very big. >> But yes, that this is what the this is what the podcasters love. It came to me in a dream. The aliens download into my brain. Oh [ __ ] get you on Joe Rogan. You got a crazy story. But it's like, hey, I did like a whole bunch of hard work and I figured out how fusion works and I figured out like the whole connection to Fusion going back like 60 years. And then people just look at you like, nah, no you didn't. Nobody could do that. You're like, I have 400 live streams. You can literally watch it. No, I don't got time for all that. Okay, it was a an alien downloaded INTO MY BRAIN. OH [ __ ] LET'S GET you on the podcast circuit. Ice chat. We're not going to make it. We're not going to make it as a species. >> It's almost like a phase transition between ice and water. It's completely different system. >> So I'm going to take a little >> transition. Did you notice that that reference as well? It's a phase. It's like a phase transition between ice and water. Why is that weird? Because now when you talk about that it's almost like you're talking about a quantum system and in the letter dash and forbes it talks about this being a phase transition and these orbs enabling a phase transition and yes this is definitely connected to superc conductivity because superc conductivity is a quantum quantum things that we see on the large scale >> this one. So in back in 1985 when Brasad started working on Polywell. >> So what they were trying to do I'm probably going to skip through some of this because I don't want to do a whole live stream on just this tonight. But so this device the problem with this device back in the day was that there was too much losses, too much stuff leaked out. And the solution to this is that if you can make your plasma more dense then in that situation there it's going to be less le basically you can imagine the whiffle ball holes shrink. The whiffle ball holes shrink and now there's going to be less and less losses. This is the answer I think that Paul Siz said we figured out the answer to the losses. All the brimung radiation losses they were too high. It's not going to be efficient enough. and they realized, oh, make your plasma dense enough, it'll minimize the losses and it'll also improve stability of the plasma. I'm just sitting here thinking like, are we like a nuclear physics plasma fusion channel now? Maybe >> he knew about quest prediction. He >> Okay, let's skip ahead a little bit. Uh, recent experiments. Okay, experimental setup. Here you go. So that's the game plan on that one. >> Yes, it was a purse for the time being. Eventually it'll be held steady state as you move toward it. So you will do this once. And what's nice about this polar concept is if you do form high beta confinement state, you don't have to s you don't have to put out that much power to sustain it. Your power requirement to sustain goes down significantly. But for this test of experiment, we just did it post. And for this scale, the information would be that the most active region is that diamond where the field is being excluded. How large would that diamond be? >> Uh we're looking at about 10 cm in radius. >> So the diamond where the fusion's happening. I just thought this was interesting. 10 cm. It's only like this wide. Like this wide chat. So you have this in the middle. Well, you're you're where the where the magic is happening is like this sides >> the central area. >> Yeah. For the central area of power injecting neutral plasma and I have about 3 m. So 7* 3 is about 20 kilowatts of electron beam. So you can easily see I need a lot more than that to start creating a deep potential well accelerate the bulk iron in the system. So it wasn't designed to handle deep potential well on this one. These beams are used as a diagnostic to goal to monitor whether you can have a good confinement on those high energy electrodes. >> So this and by the way, I just like this helps me figure out exactly what's going on here. So what's the answer? Paul Sizz was probably licking his lips when he was talking to Dr. Bousard about this because he's going, "Hey man, all those problems that you had with your reactor, like you have to you have to charge this thing up. You need a huge amount of input to get it going. And we want to create a very very very powerful negative potential well in the middle. Like he's shown that on the small scale this will work. We got to we got to build it up. But we also remember we need to inject plasma into this thing and we have to continuously inject plasma into this thing to keep it going. What are the answers to that? Why bother shooting or injecting? We have to get rid of the ion beams. We have to get rid of ion. If you're flying around in the sky, you can't have ion beams connected to you. How are you going to have ion beams connected to you while you're flying around in the sky? Now, you could in theory, but I don't think there's any ion beams inside those plasma orbs. So, instead of the ion beams, how are we going to get our excess plasma? into our thing right there. Our craft is going to fly around in the sky and the plasma is going to come from the air. The plasma is going to come directly from the air. Our laser beam is just going to pre-ionize the air and that's our fuel right in front of us. We don't need the laser beams because we're going to be flying around the sky all the time and there's constantly going to be more and more fuel getting sucked in in our funnel through the front. So Paul Sizz was probably licking his chops when he saw this fusion thing because he was like, "Hey, I've got a really good idea how this can be incorporated into this heat exchange engine I've been working on that we have been researching from the Russians from their Ajax." Okay. And it's crazy that the people hated on this ramjid idea because they were like, "There's not enough hydrogen in outer space to make it work. You can't funnel in enough hydrogen because your funnel has to be the size of Jupiter because there's so little hydrogen in outer space." It's like, yeah, well, you know, where there's a lot of hydrogen, how big does the funnel have to be if it's just flying around in the air where there's plenty of water, plenty of moisture? So you can read about this later. I'm just going to SL flash here. >> Okay. >> The game plan for that is we're going to start with a bulk plasma and it might be a little jumpy because we have to take a pictures on simultaneous shot. It's not done in a fast shot. So this is how the plasma >> if you're watching the video. There's actually videos of this. This presentation has literal videos of them doing it. By the way, three I think >> two plasmas come in, they merge, and they bride it up. Let me play it one more time. When it's done, you can see the plasma comes in. They form it because it was limited. It was limited by >> chat. I mean, this is now you're starting to look at this. And he what he just explained is basically what Trialpha Energy's reactor was. In fact, I mean, we don't know a lot about the reactor. It could literally be this. If we look in the middle of Trial Alpha Energy and Helium Fusion's reactor, it could very well be something like this on the inside for all we know. But he's saying we have to inject the plasma. They inject it from both sides and it meets in the middle. What does that sound like? Oh, that's helium fusion's reactor. That's Trialpha Energy's reactor until last year. And Trial Alpha Energy had announced they don't need to do this anymore. Now they their in uh ion beams can just start the F FRC up in the middle because half of it is how do you get the plasma started up? >> Experiment. We didn't have a that great a symmetry. But nonetheless in the bulk volume you do have a very high pressure plasma forms and that seemed to be sufficient to actually dramatically change the combinement property of the electron. That's what we've seen experimentally. >> Pressure in in pascals would that be >> this case will be about 1000 pascal for this one. They're not that high. >> Something like that probably. I might have to check the numbers on that. Oh, it does have a very interesting sound effect, but listen. >> 8 6 >> Here we go. >> 3 2 1 >> Whoa. [laughter] >> I don't We have some young. >> So, there it was. He plays it again here in a minute. >> The mirror here. So, you will see the reflected light from the mirror. >> That's what you see. It's not as spectacular as a result of it, but >> so that's what it is. That little flash that you just saw there was a fusion reactor, fusion reaction. And in these cases, their confinement is so short because these are small designs that are meant to show the physics that it's only like a little flash, little flash and that's it. And somehow, and this was okay, 2016, great. This is 10 years old. Somehow in 2014, they were so far beyond this. They weren't working on little flashes. They had balls of plasma. They were 20 20 feet wide in diameter floating around in the sky in perfect triangle formations. Somebody was and is to this day. Way ahead of the game. Way ahead of the game on this exact research. On this exact research. Excuse me. >> One of us thought it safer that way. So nobody got hurt. Everybody's happy. So, so it was about 19 2013 late October we finally make this thing work. It's called whiffle ball. And there was a pictures of the plasma with about 700 megawatt of injection power to start it and form high density high pressure plasma in the middle. >> So this is one of the first data. I think that day we took two datas looks about the same. I decide to call a day uh just because I was pretty excited about it. So these are the case when we have electron beam tons on here at t equal about 40 microcond is a microcond in the x domain and we monitor it there's really no x-ray obviously so he explains why this curve is so important here okay so I'm going to just help here because this may make it easier for you guys there's a graph that's being shown here and you can see this spike up and then it kind of stays up a little bit and then it shoots back down and then in that area where that spike goes up. There's this shaded part that he's got and it says high beta phase and he's saying this is what we want to see because there's going to be this ramp up. What we would expect to see is in the middle as we inject the plasma the high beta it goes up. It hits this phase change. It ramps up hits this phase change and when it hits the phase change we it should level out. It should create a new new situation, new equilibrium situation. Is equilibrium that word? Maybe not. Where the plasma in the middle is now at its high beta configuration. Remember the this star where it's uh shaded in the middle. And then after that, there's going to be a sharp drop off after they've merged together and after they start to dissipate and the plasma cools down very quickly that phase change is going to go back to normal again. And what you're seeing on this graph is showing that. Why is this important? It's the proof of concept. This proves that the high beta is the answer. This is what we want to try to achieve is that we are achieving this phase change high beta value in the middle because of the plasma density that is causing our negative potential well to be formed. negative potential. Well, sound familiar, chat? Sounds a lot like negative energy. There's a ve they're not exactly the same, but maybe they are and they're definitely similar. >> This confinement of the electrons are poor and there's no plasma to make an X-ray. >> Okay, so let's >> t we that's about a microcond. >> So you can see why this signal was so pretty and you can see how big a jump you notice it. Later we also notice there's a interference from the impur that is being melted into the system. We shoot six shots. So >> he does talk about impurities as well. And that's interesting because if you're sucking fuel out of the air, there's going to be impurities in the air as well. And the impurities produce X-rays. So the X-rays that are coming out, I think are just natural like brelung radiation are coming out of the orbs in MH370 videos. But there could be some impurities that are happening as well. So you're going to see maybe some neutrons but only a small small percentage. >> Every time we send it, open the chamber up, send two people, take it out, there's one person with a good hands manually that out. So it's not a very easy to control experiment. And you seen that like if you watch it made it how long a confinement time you're measuring it. One thing you don't want to do is you measure signal with a large number to the small number where you have a lot of errors. That will arbitrarily create a big numbers especially if you divide by zero. That's not >> a summary here. This experiment was very satisfying considering it took us a long time. It's particularly satisfying. The X-ray measurement clearly showed that you can enhance the electron confinement and high beta cost that riffleable effect. We finally got it. The result validated one of the key conjure made by the grat and his team back in 1950s and that's a big deal. Now we can move forward to complete the proof of principle of the polywell fusion machine. So you can read about details of experiment and we paper should be being reviewed now hopefully to get published soon in a scientific journal as well. So what ended up being is in order for the I want to highlight this because this is an interesting concept could be [snorts] right maybe says Ashton when the high beta plasma pushes out the magnetic field it must also push out the electric field. This is the ZPE field that it's pushing out. So arguing that when we push out the magnetic field, we're also pushing out the zero point energy field and when it comes back in this energy is gained again. This sounds a lot like what would be required to produce a monopole as well. Like you could imagine that what the orbs are doing is a similar concept. They're producing a huge negative or positive just has to be opposite potential. well around the plane. And in that moment when they produce the spherical bubble of plasma, they're pushing out the electric field. They're pushing out spaceime, therefore causing the plane to appear somewhere else in spaceime. Just like pulling a string on a guitar string and watching it go up and down. I like it. And this also leads into what was um uh Miller uh what's his name? uh the ZPE guy Miller I can forget Douglas Miller talking about a catalyzed a neutronic fusion with zero point energy pretty interesting poly to work properly we actually need two concept to work at the same time we're able to do this electrostatic fusion by forming a potential well early all the days and that's when you get to see a lot of neutron data we had a very hard time dealing with this high beta cost effect but we finally done it in 2013 >> yeah this is a guy that maybe I might be able to lure this guy on my show. I might be able to. I feel like he probably doesn't know all the secrets. Like he just is a guy that was probably a scientist that got involved in this and just didn't realize like how crazy far ahead they are. Maybe that was a big step for us. What we really need to do is do two of these things. Now we have two pillars of the polywell. We have to do both of them at the same time. That needs to be done. And that's something that we like to do it. Let's >> do this in a few years. Maybe not cheap. It'll probably cost few hundred millions of dollars, but you can nonetheless do this at a relatively short time frame. >> And I'm going to show one kick animation move. >> I'm going to skip ahead a little bit. >> Is the time if you keep it's also the pressure. >> Oh yeah, everything will go up. So 2 kilog is not a strong. >> This guy's question is annoying. I'm going to skip ahead. >> How about one billion car mostly passenger car here that is now being driven on the road today in the world. maybe not in Seattle, but in California where I live, water problem is very severe. >> So, he explains how what this could solve. And he talks through it. We've mentioned it a lot of times. If we had this kind of energy, everybody's going to be driving an electric car because you're going to just have infinite energy in your house and you're going to have a fusion reactor in your house and you're just going to charge your car up when you get home every day and that'll be enough and you'll never need oil, petroleum ever again. Simple as that. We can also solve the water crisis because now desalinization which is removing salt from the ocean water make it drinkable. It's already a thing. It's just expensive. So if you have free energy or extremely cheap energy now desalinization becomes really cheap. So the people that are the forwardthinking futurists, which are all of you, we don't settle just for, oh, we're going to have cheap energy. Now we're thinking like, oh, what does this unlock? This unlocks basically infinite water, infinite food, Star Trek replicators. Maybe not immediately, but down the line, that's what we're looking at. Like it solves all of these global problems. And this is the reason why George Miley is saying that a lot of tragic events seem on seem to happen to people in this field. RIP uh Nuno Larerio. RIP my goat. My secret goat. I see everybody always talking about that guy too and building all these conspiracy theories which is funny because their hearts in the right place. They are hiding fusion, but Nunolario was probably not the super secret guy who had it all figured out. Like these guys have all we're we're reviewing the guys that are like way further along than even what the conspiracy theorists thought Nunol Larerio was. [laughter] >> If you can address it thanks to the technology developed. Let me skip ahead. >> Now the dalination doesn't look that way. He >> says something else here. you need to buy what we saw experimentally which is the nice thing about being experimental is you make a measurement do I see more electrons being piled up in the center and that's what we saw so we now go back and let's do some more and let's generate the data to understand what >> and here's the other difference guys one more thing I want to point out last rant he's an experimentalist he was doing this for 12 years after Busousar died and then he went and joined TA A this work is really slow and there's no money in it. These guys are so far behind and they're getting further behind because Lockheed Martin, they don't need to build eight versions of a reactor and get all these approvals and beg for money from people. They can just shoot for the moon. They can be like, "Hey, I've got this guy Charles Chase. He's the best electromagnetism guy on the planet. If he goes there and he says this works and we can make a version of this that works, I believe him. We're going to spend the money and we're just going to make it happen. Boom. And they did. And that's literally what they did. And this is the thing. We the public has no chance against the government supported militaryindustrial complex and defense contractors. And this is where I pray the people that are watching this and I hope Tri Alpha Energy Helium Fusion and anybody else out there is watching this as well realizes like how far behind you are and that the answers are already out there more than even before. I'm willing to say willing to bet you anything the answers to how fusion works are in these videos right here. They're in these videos. You're looking at how fusion works right there that can help you figure out your autumnic fusion, help you figure out your high beta concepts. You're looking at the answers. Any fusion scientist and physicist worth their uh name should be able to recognize the configuration, the plasma, the temperatures that you're seeing in these videos. And I'm starting to realize now that we are the experts. We're already like people watching this are there's so few people that do this that you're already in like the one top 1 percentile just by watching this live stream. >> It's actually is causing the loss of electron to decrease such a significant manner. As far as uh cross-section that's like when you have lots of plasma they kind of move around it and occasionally fusion cross-section they hit it and when that hit it you can have a fusion but that's very unlikely event. So you have to keep them alive. In a poly well general number you bounce around it is about 10 million times to 100 million times and then they'll go through one fusion collision. Please >> I don't know if it you didn't mention it so I don't know if it's still a factor but online there was some discussion of the ions not having a boltman distribution and this being kind of a loophole in the lossome criterion but you've mentioned here confinement times of milliseconds or even seconds. It seems impossible that you could confine that long and not have a classical thermal distribution. >> Oh yeah, I wouldn't I mean in our assumption ions are supposed to have a thermal distribution. But keep in mind that >> to achieve a conventional low criterion. >> Yes. >> Okay. >> It should be sufficient enough and that's why when they look at the cost even back in 1950s they're comfortable they can do it and this one is improved version of it. So yes, if we see something non-thermal effect and that's actually the bit of a let me take it back thermal versus >> so I I want to learn more about thermal versus non-therrmal equilibrium right this is the whole rub is all the tokamax they're trying to do thermal equilibrium of their plasmas they have to obey the Maxwell Boltzman distribution now this is the this is supposedly the loophole here is that by get doing cold non-equilibrium plasmas and cold is a bit of a misnomer as he just said right there that we can get around this limitation and now make fusion possible. It's possibly one of the reasons why high beta concept is required. So let's try to learn right now. >> Nonal is a bit of a misnomer because what's happening is in the Hamiltonian electric field E5 >> Hamiltonian is what he just said. Tom comes directly to your energy to so as they move along their potential well they could have thermal distribution but all of them will gain kinetic energy that's not a thermal >> I'm trying my hardest chat I'm just I'm just a lowly healthcare IT guy but the way it sounds like it to me is he's saying well you have to map or model each of individual individual electron and imagine like it's on a hill and so it can basically be getting kinetic energy because you're moving it up to the top of the hill. If you're moving up to the top of the hill, we'll have to use energy to get to the top of the hill. So that energy might be in the form of heat. So as long as the total energy, if you're not defying thermodynamics, as long as you're not getting excess energy in this way, then you're you're fine from the classical perspective. You're not defying any laws of physics. Chad, I just blacked out. What did I just say? I don't know. I think that might be the answer, though. So if you don't believe that then Grock says this thermal plasma also known as equilibrium plasma is characterized by all components of the plasma the electrons the ions and the neutral gas being at roughly the same temperature. The equilibrium is achieved through strong collisions between particles allowing energy to be distributed evenly. So the reason why the energy is distributed evenly is because the particles are colliding. So all the energy gets evenly distributed. Thermal plasma is typically generated using low voltage but high current creating intense heating. It is used in applications like plasma torches. Non-therrmal plasma also called cold plasma is different because the electrons are highly energetic. They're hot but the ions and neutral gases remain at low temperatures. Yeah. Okay. Yeah. Yep. Okay. H boy. This really has got me thinking all of a sudden. Okay, close to room temperature. This lack of equilibrium means the plasma can be reactive without heating the surrounding gas significantly. It's generated using high voltage and low current which activates and ionizes the gas without full thermal ionization. This type is useful for processes like surface sterilization, air purification, or chemical synthesis at ambient temperatures where you don't want excessive heat. Oh, okay. So, we're definitely definitely looking at none equilibrium plasma in the MH370 videos. Okay. And then the last question is this. How how did Salvatore Py know about nonequilibrium plasmas? Nobody in the world knew what the hell this meant until I started talking about it in 2023. People were saying it, but no one knew what it meant. And we know we're looking at a high beta none equilibrium plasma in the MH370 videos. And I'm now ready to say I'm going back what I don't know what I said before, but I'm going to go ahead and say that these must be the the electrons of the yellow part or the green part must be that's the hot the hot electrons, right? It's hotter. And the rest of it's the ions, the cold ions. In fact, are they trapping the fusion reaction in that hot zone? Is that what's going on here? Is that what this design is? Why? Because maybe it's not happening. Maybe the fusion zone is not in the middle. Maybe the fusion zone is like where the hot part is happening. Some All I know is somebody knows. Somebody knows what's going on in that video. Probably Charles Chase and a bunch of other people, too. Okay. >> Your own site. So, maybe your own site needs a little updating. >> Uh, which one was >> the EMCC? >> Oh, documents. >> Okay. I'll if you point it, I'll fix it definitely. Yes. >> Yeah. So, let's say you get all the plasma physics to work and you get, you know, sustained fusion reaction and confinement. How are you going to cool it? >> Uh, cool. >> You're reducing power. You have to cool it and get the energy out to somewhere like a turbine. >> Yes. Excellent point. >> Yes. Uh so uh we have an engineering design little bit more comprehensive than this. Uh it's probably use a lot of off-the-shelf item some of the more advanced reactor turbine drive type of system which is probably a generation 4 nuclear fusion reactor. we have some design we know it's pro it's kind of the we extract what's great about what's available in the general edition 4 nuclear fusion reactor system and that area started to be a little bit more like uh confidential so I'm not to just keep it in but we have thought about it and that's something that we have to factor in that's the reason that when I put that uh scaling on the distance I put a disclaimer that it's meant to be just scientific >> so he basically says that's confidential he gets asked how are you going to cool it and he basically says it's confidential. Well, number one is if you're using non-equilibrium plasma, then you don't have the cooling problem or at least you have much less of a cooling problem. And I'm going to go ahead and I'm going to lean towards what just said was just said right there. It's possible that the hot parts are the conductors that they're using to uh generate electricity. That's kind of what I've been thinking about. The yellow part like may or part maybe that's the part where they're using to generate electricity. Just really hard to tell because we're just looking at a thermal camera. Okay guys, that's going to be it for tonight. We're going to cut it a little bit short there tonight. Let me just see if I have any moments of zen for us here tonight. Um, so I hope everybody learned a little bit more about fusion tonight. That's our goal. Oh yeah. Okay, we got a little moment of zen action. We've got some uh we got some images here. Is it this one? Which one is it? We got some images. Let me do the super chats first, guys. Blue plasma balls. Do you think Stephen Spielberg's new movie will be a bunch of [ __ ] too? Nah. There's probably going to be a bunch of truth that's thrown in there. Stephen Spielberg's in the no. Like, he's got people leaking him stuff. He's connected to people, so it's probably going to be some real physics. Like, like the Christopher Nolan stuff like why was Christopher Nolan doing time dilation? That's such a weird physics concept. I didn't even know that was a thing before Christopher Nolan did it. So, I think there is an element of predictive programming, but yes, it's mostly going to be [ __ ] [laughter] DJT. We're standing for DJT, guys. If you see me standing for DJT, I'm even more all in. Guys, realize I invested over 50 G's without even knowing that TAE had absorbed Polywell. Wow. I'm gonna have to go and see if I can find scratch up some more pennies and invest even more, honestly, because I I mean, this is I Nothing's guaranteed in this world. Obviously, Polywell went defunct because fusion is not guaranteed, but everything I could not have imagined a better fusion situation than what's happening right now with DJT. And it's gonna get a lot of negative push back from the libs because they hate Donald Trump, anything related to Donald Trump, which makes it even better from an investing standpoint because when people are emotionally invested against something but it's fundamentals are good, that's a money-making opportunity in my opinion. Jal Robinson says, "Thanks for the stream." Thank you, Julio Robinson. Mick Leonard says, "You got a lot done on vacation." Touche. Yes, indeed. I've got to do some work this weekend, though. my real job. I gotta go back to my real job. Two weeks off, Matt 1776. Gifted the cookie. I don't know if you watch Stranger Things, but uh you're trolling me. You're trolling me. Yes, they use exotic matter to keep the upside down portal yet. Yes, I watched it. Yes, we ranted about it. [laughter and gasps] This is not a super chat, but I'm just going to read it anyway. The lesbian chick from Stranger Things went on a late night show and said she was so grateful for mom. Okay. Jesus. Okay, we're not going to finish that one. I said no politics tonight, chat. I said no politics. Raising Kane gifted the gold pills. Thank you very much, Raising Kane. Appreciate you, brother. God, you guys are gifting a lot. Thank you very much. Um, and then what else we got? Okay, I think that's good. Okay, guys, your moment of zen for tonight. Ion density in the Polywell fusion reactor. Look at this beautiful, beautiful fusion reactor. Is there Is there Is there sound? No sound. Look at that bad boy. Look at that. This is for my nerds, chat. This one is for my nerds. And Zapperoo giving the donation. Always great. Way better than the learning school chat. We're This is the school for kids who want to learn how to read good and learn how to do other good things. Good. Exactly. So, this is the idea. You're confining. I love these images. you're confining the electrons in the middle. You're creating this negative potential well and then because of that the ions are going to get tra are going to get sucked into it. So you're going to see these ions getting pulled in. So around the edges of this I would expect it to be higher speed where the electrons are getting yanked into the middle. So this by the way you are looking at the poly well configuration. Wow. Look at that magnetic field. So that's what the magnetic field looks like. Now, I'm gonna pause it right here because look at that. Look at that right there at the end. Does this not look a little bit like an orange slice? That heat signature right there is what I imagine when you're looking at the orb spinning around with that heat signature and it looks really similar to that. Could just be comment, could just be a coincidence, but I wanted to point that out. One more moment of zen. Second video. It's two-parter tonight. This one. Forming a field reverse configuration. Oh, wait. Why didn't it share it? Here we go. Forming a field reverse configuration, guys. Also, no sound. This is a real F FRC configuration simulation. There you go. Damn, look at that. So, you can see the similarities because we're creating this uh plasma in the middle. was producing its own electromagnetic field creating its negative potential. Well, and then that there you go. There's your that was your uh high beta presumably, right? Like this is the same kind of concept as the high beta is the middle basically becomes polarized and you get this high beta concept. Boom. Looks very similar to what they're so similar idea, different approach to producing high beta. So there's your high beta. So you start with this diffused plasma. They come together. Your high beta gets achieved. And now boom. And now you've got your boundary between your magnetic field and your plasma there. Beautiful. And somehow they made like literally the perfect version of this. Boom. Wow. Beautiful guys. Okay. MH370. I love you. Hope you guys enjoyed the videos tonight. Hope you learned a little bit about Fusion. We'll be back on Monday. Peace out everybody. Later go [music] [music] out in the fields where the [singing] skies are wide. Talking about a journey through the cosmic ride. Einstein and [music] Thorn, they set the stage for a trip through time across the space age. Wormholes connect distant points in space. Traversible paths to a far off place. [music] No black holes pull, no crushing weight, just a cosmic tunnel to a distant gate. Talking wormholes, stargates, negative [music] energy travel through the cosmos. It's our destiny. MH370, [music] where did it go? Bing 7 through a wormhole. Flowing talking wormholes. Sargates [music] negative energy travel through the cosmos. It's our destiny. MH370. [music] Where did it go? Boing trip 7 to a wormhole flow. [music] [music] Exotic matter. Negative energy is the key to stabilize the wormhole for you and me. 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