Resonance Is the Key to Fusion. Confirmed.

Video Transcript

Helium fusion announces dutyium tridium fusion with 150 million degrees Celsius. And they did it on the first try. Boom. All I can already We're I can see the future chat. The aliens have downloaded the information into my brain. I can already see the reaction videos. The nuclear physics uh ginger guy, right, that sits there in the corner. He's like, he's like, and I'm reviewing this video right now, doing a reaction video, and he has it like this, the videos like cut out like like this around him. That guy, whatever his name is, T Fosley. I can already see his future reaction video to this. We're getting ahead of all of them. We're getting ahead of all of them. I'm all in, chat. I already told you I was all in on DJT. I'm all in on Helium Fusion as well. Here you go. Here's the video. Here's our boy David Kirkley. I have not yet been successful. >> New fuel and my um my seduction attempts trying to honeypot him because I'm I'm trying chat. If you see I'm in his replies and I'm like, "Yo, is there excess energy coming out of this?" Anyway, let me let's play the clip first and then I'll talk about my boo here. >> When you put in a new fuel and you heat to new physics conditions that no one's ever done before in an F FRC plasma uh in in a private company like ours, no one's ever done that before, are you going to discover new things that then hurt your ability to go build power plants? Um, and we didn't find the things work that we needed to work. And then what was kind of crazy is I think we built the test plan assuming it would take a lot of operation and tuning and just fine uh engineering and physics development to be able to get it to just really work perfectly. And it did. First shot, bam, tridium fusion. And what we saw is that as you compressed and held this fusion plasma more, it continued to heat. More pressure, more heat, more fusion. And it was pretty clear. And so we're still working through exactly what that means and how much. But I'm very excited about that progress. I think that paves the way for us to continue to push Polaris to even higher performance and then start working on building the next generations of machines that will be the power plants that take electricity and send it out to the grid. >> There's I don't know what you can say after that. The only thing you can say is they haven't shown the results yet. They haven't published the paper yet or whatever they're going to do. Because otherwise, if you don't, unless if you believe what he's telling you right there, they've got Fusion ready to go. And here's the real kicker that really stuck out to me when I watched this that I think if you're reading between the lines, you only pick it up if you're reading between the lines. this part right here when he shows when they show this where he says they got it on the first try and the the the more they compressed it, the more energy they were getting out of it. That tells you that not only were they able to be successful in whatever their test run was right there, but they took it to the next level. It worked on the first try and they were like, "Hey, compress it a little bit more. Let's just push the limits, right? Let's see if it'll start to come apart or if it'll break." and they compressed a little more and they looked at the results and they saw more energy coming out and they were like, "Yep, this is exactly what our [ __ ] shows." That right there, that tells me that this is only the beginning of the success. Yeah. This basically proves the high beta concept. You nailed it, Tommy. This basically proves that they did the high beta concept, which is the one to one pressure ratio, and they realized now we can control the pressure, and if we press more on it, we're going to get more energy out. And why this is so huge guys why this is so huge because you realize if you're smart and you've looked at the fusion calculations you realize they now have a path to helium 3 and boron 11 fusion because now it's just a matter of press compressing that plasma enough and you're going to achieve the temperatures required for boron 11 helium 3 which is a neutronic fusion. That's what we're aiming for. We are a neutronic fusion disclosure 2026 and we are just straight up seeing the future, predicting the future. Aliens are downloading secret information into our brains. This is what we tell people to get on the podcasts and then we drop the real physics knowledge on them after we've gotten the door, after we've said, "Yeah, it was the green aliens. They downloaded the information while I was sleeping." Like like they do for Candace Owens. Oh, you let me on the show. Great. Okay. Now, this is how a neutronic fusion works, and this is how a cross-section works, and this is how we can increase the cross-section using quantum mechanics. This is that's when you get them. That's when you drop the bomb on them, chat. Look, guys, I'm just laying out the pathway for disclosure. It's your job to follow it. We need some more people out there. I need more influencers. David Kirkley Kurtley has been on social media, you know, accepting the praise, but I have to say I'm not seeing as much talk about this as what I was hoping. So, probably what will happen is we have to give the slop tubers like a week to do their slop tube reaction videos where they go, "Well, this seems pretty impressive, but uh you know, it still has to be proven." That's what's going to happen. So get ready because next week I'm going to find all those slop tuber videos and we're going to react to the reactions to the reactions. It's going to be great. Okay, one more thing chat. First of all, DJT stock is down to $11 right now. Chat, I thought it was so over. I thought it was so over. I gave bad stock advice. Turns out the reason why the stock is down is because Trump Media Group has like 1.5 billion dollar in Bitcoin and Bitcoin just collapsed in half. So yeah, kind of sucks, but whatever. We're in it for the long haul anyway. So, I was also worried about DJT, not just because of that, but by the way, probably a pretty good time to get in if you want to get in. I was also worried because here's Trial or here's uh Trialpha Energy is now getting cucked. They're now getting frame mogged for my zoomers out there by Helium Energy. Well, look, I invested a bunch of money in DJT and I can't possibly have them out here getting jester maxed on by Helion Energy, Helen Fusion. We need some breakthroughs. We need some good news in the media. This is unacceptable. Well, this just in. This just in, chat. Turns out also announced today basically right now before this brand new brand new autronic fusion paper. I can't make this up. Brand new a neutronic fusion paper by Tri Alpha Okay. Well, thank you. Happy Valentine's Day to us chat. Happy Valentine's Day to us. So, who's ready for a little science? My Valentine's Day gift to you is some science. So, here you go. Instead of reading that paper, I actually just had Gro summarize it for us. Actually did a pretty good job here. And I'm going to go ahead and say this is going to be worth it. This is going to be worth it, guys. So, here you go. Try Alpha Energies. brand new scientific paper as of like today or a couple days ago whenever this came out. Increased proton boron 11 fusion reaction rate through fast ion acceleration by ion cyclotron range frequencies heating in LHD. Well, that's a lot of words I don't really understand. I understand the words frequencies. I understand the words uh C proton boron 11. So let's go ahead and have Grock explain what the hell this means. So for the first time, this range of frequencies can resonantly accelerate neutral beam inject protons and therefore increase the fusion reaction rate in magnetic confinement devices. Okay, well that makes a whole lot more sense already. So, what they're saying here is we have our plasma thing going on in the middle. We're going to shoot some really fast ions into it to keep it spinning around. And they're saying we can do this and increase the efficiency, the reaction rate of our fusion. Wow, that is super big because the whole thing about fusion is trying to increase that reaction rate. And the way we think we're going to increase that reaction rate is by increasing the temperature. What we just said with helium is they're going to squeeze their plasma and increase the temperature and get more reaction. Here's trialpha energy saying we're going to do it with frequency. We're going to do it with resonance. Those are words I like to hear. Daddy likes to hear those Tesla words. When I you we start talking about energy, frequency, and vibration. Now you're talking about the magic sauce because we read a paper about cold fusion that speculated that cold fusion, lower temperature fusion was possible because the crosssection would get increased via resonant frequencies. certain frequencies cause frequenc cause fusion to increase exponentially significantly. Okay, let's keep going. Where's Oh, here it is. So, says continues on some stuff about proton beams blah blah blah oscillating in phase. So we have an alpha count oscillating in phase with ICF power which is radio frequency power. So we're having an oscillation occur. So that's our frequency right. Um let's see why is this let's just go to why this is significant. Proton boron 11 is the leading a neutronic fusion candidate. It produces almost no neutrons. That's why it's a neutronic. So the reactor will need far less shielding. It produces no activation and in principle it could run on abundant fuels. Hydrogen and boron are both commonly found. The problem with boron uh proton boron 11 fusion has been that the fast protons slow down rapidly because of coolum condition. So you run into a wall and you slow down and this makes it they can't fuse very easily. So let me repeat that the problem has been that you've got these particles trying to collide and they hit the barrier, the magnetic field that prevents them from colliding and they lose a bunch of energy. That sucks. We don't want that. We want things to effortlessly just come together. And what we've learned from Tesla and from all this physics in the last two years is that resonance is the key. You want your waves to just gently come together. And if they aren't coming at the same angle, they're off. They're off. Then they're going to reflect off and it's not going to be a good interaction. Ashton is not suicidal. Honestly, at this point, chat, after I saw the general relativity thing and the video and the responses, the CIA would be doing me a favor by orbing me somewhere. This might be my hell. In fact, I'm pretty sure this is my hell. I'm pretty sure I'm living out my hell right now, explaining physics to people that don't even deserve it. Not you all, but the dumb dums and those replies. It is what it is. Okay, going back. So, we're going to get around that losing of that energy. The fusion cross-section peaks around 600 keev, but beam ions spend most of their time at lower energies where the reactivity is tiny. Theoretical studies have long said that in order to get net power, net energy out, you have to somehow keep the fast ions distributionally peaked in the high reactivity window. Oh boy, chat. There we go. There it is. This is my This is why I like asking AI because AI pulls back this information that's relevant and it says, "Hey, the reason why this never worked is because the coolum barrier caused all this energy to be lost and now the things can't fuse anymore. So if you wanted to this to work out, you need to have a zone where that where you don't get that repulsion, where you don't get that where you don't fly into that field. However you're going to figure that out, you got to find out a way to pull that off. Okay, what's the answer? I'm excited. What's the answer now? I got to know. So it says theoretical studies. So you must keep the uh the distribution reactivity window low otherwise brelung radiation losses win. Now this was interesting. Paul Sizz mentioned they solved the brelung radiation loss problem. This is Ashen Forbes in his photographic memory. I don't remember which clip it was or which paper. One of those papers he said they solved this problem and there it is. this. Why is that problem so important? Cuz once you've solved that problem, you solve fusion. You solve fusion.