Video Transcript
Get this knowledge into your membrane right now. You're not going to want to miss it. Are lasers important, chat? Yes. Why? What did we learn last week? Last week we learned nonequilibrium plasma, nonequilibrium fusion is this idea that we're not just going to heat up. We're not just going to take this box and heat it up and hope that fusion happens in the middle. No, we're not going to do that. That's stupid. We're going to be smart, big brains, and we're going to shoot laser beams that are already energetic, make them collide or do some magic stuff, whatever. This is where the plasmoid comes into play. We're going to have our laser beams collide and we're going to produce our cold nonequilibrium plasma that's already tuned to fusion temperatures. Wow. How are we going to do that? How are we do that though? Oh, it turns out we need super powerful lasers. Yes, pulsing the lasers also helps as well. You got it, chat. I am so impressed by you right now. Two years ago, we were all just a bunch of dumb dums. We didn't even know what electricity was. Now, people are just screaming in the chat, "Hir pulse amplification. Amplify your laser power. We need the lasers." Exact. Let's take a look at this scientific paper we got here. Reactor for boron fusion with picoscond ultra highowered laser pulses and ultra high magnetic field trapping. That's my jam, chat. That is my jam right there. Why? Because we are going to trap our fusion with our magnetic cusp. Remember the polywell device? Our polywell device has got its rings on it. You trap the electrostatic potential in the middle. That's our magnetic trap. And we're going to shoot the laser beams in there. And we fill it up with boron. And now we got our animronic fusion reactor. It's that simple. That simple. So, found a paper by George Miley, the George Miley of Fusion, Cold Fusion, of Black Projects. Pretty sure this George Miley guy was helping them build the orbs. Pretty sure he was directly involved. Stop chat. Stop cheating, chat. I I see you're cheating in the comments. You guys are reading ahead and you're and you're ruining the fun for everybody. Exactly. But as you can tell, this paper is yatsi McGisacs all the way to 11. I don't even know what that means. Introduction. In the search for the aim of high energy production by nuclear fusion of light nuclei, an alternative may be available by using laser pulses of picoscond durations and powers in the range above dozens of pedawatts up to terowatts of power. The essential difference to the highly developed laser diffusion by using high huge lasers with nancond pulses for more energy now with achievements of the high foot operation is that non-therrmal forces non-equilibrium non-therrmal or cold non-equilibrium non-therrmal forces of laser pulses are used in combination with the recently achieved ultra high magnetic fields for trapping the plasma. In addition, use is done by the avalanche reaction of fusing light hydrogen with boron 11 with negligible problems of radioactive pollution and direct energy conversion from alpha particles. Chat, what's wrong with me? Have I been cursed? I understood all of those words. It was like reading an alien language that I should not have understood. So, let me break that down. It's basically saying the advent of super powerful lasers in combination with super high magnetic fields. Remember the the the Rebco superconductors, the Rebco superconductors are super powerful magnetic fields from rare earth materials. So he's saying combine your Rebco superconductors with your super powerful lasers and now we can produce non-equilibrium plasmas that are can produce temperatures that can cause a neutronic fusion from proton boron 11. This is a yatsi on every single one. This paper is so close to the orbs that it actually threw me over the edge in thinking that this guy literally just straight up helped build the orbs for them. Let's keep going. gets better. This option was developed in the physics of basically nonlinear processes opened by the interaction of lasers with plasmas nearly from the very beginning of the special turning point of generating the pedawatt lasers by chirped pulse amplification. Oh my goodness, chat. He says right there, this option opened up because the magnetic fields, the material science we needed became available both from the laser aspect where we got chirp pulse amplification, won the Nobel Prize in 2017, BTW, and the magnetic fields. So the ultra high acceleration was calculated since 1978. So they already knew that lasers were going to be the secret in 1978. Keep this in mind. They knew the material science. Like they just did the math and they were like, "Oh this is going to be possible once we get to these lasers that are powerful enough." So they already knew what they had to get to. That's what he's saying right there. Yeah. The public, like as somebody just said, the public is so unaware. That's the most incredible part. We've been researching this for 2 years and I think back to where I was before and I go, the public wasn't even close to finding this out. Not even close. No one reads this and has any idea what he's talking about. Okay. So, they knew about the halter high. Oh, yeah. And the direct energy conversion. But also, people just don't know what the words direct energy conversion mean, guys. Direct energy conversion. That right there is alien technology. By the way, as far as I'm concerned, direct energy conversion is alien technology. You have the ability to skip the steam cycle and goes directly to electricity. That's alien tech. Simple as that. Boom. Okay. So, direct energy conversion. And then what else? He says something about uh mirrors here. Um scroll down a little bit in building lasers of high powers. Where does he say the thing about the mirror? Oh yeah, right here. So he says right here that listen to this part. New laser architectures based on existing high energy pedawatt technologies for productions of 200 pedawatt laser pulses from a single beam of lines existing in the national ignition facility. Remember John Knuckles is the one who set up the National Ignition Facility. We know the guy that started the NIF. John Knuckles, famous physicist from our engineer. And he says right here, NIF like lasers, the lasers in the National Ignition Facility can be reduced in size by many orders of magnitude after short laser diode pumped neodymium glass laser amplifiers. This paper is from 2016. Here's George Miley saying that the National ignition facility is basically jank wood five league in League of Legends chat. They're saying that and this is why people go why have we not solved fusion? They have solved fusion. All the material science has been solved for fusion for decades. We just don't have it publicly because it's a national security issue. That's the reason why we don't have it publicly. And then somewhere in here he says something about Yeah, here it is. Plasma mirror techniques can evaluate to what degree the contrast is necessary where it can be explored what initial density profiles of the irradiated targets should be used for optimal conditions of the nonlinear forced driven dialectric explosion. Now, what he's saying right here is that just like that CIA lady was saying, he's saying that we can calculate the uh reaction that's going to happen from fusion and we can tune our laser beam to the perfect possible thing. If we tune our laser beam here perfectly, we can set up this situation where we have the exact reaction that we want to get for our nonlinear uh non-equilibrium plasma to be produced. And then he talks a little about the avalanche reaction which I believe is related to the fact that you're using proton boron 11. And we already know quite a lot about that. What I did find interesting was this though. Remember when we were talking to Grock the other day and we asked Grock about producing non-equilibrium plasmas, it said that there would be a resonance condition. This is key. You want This is the felony physics right here, guys. This is the that's probably classified. I don't know for a fact, but I assume it is. Grock said, "Not only can you produce these highly efficient autronic fusion reactions, but there's a certain resonance, a certain frequency that causes the cross-section to skyrocket, aka way more fusion to happen." And Grock said it's between 600 and 700 keevs. That's the energy level. between 600 and 700 KVs there's potentially a resonance condition that gets met where suddenly fusion is just going crazy much higher than normal. What does this say right here? This is George Miley again. George Miley says for further confirming the theory of avalanche process the the elastic ion collisions in the broad range of 600 keV's energies will be further evaluated. What he's talking about there when he's talking about the avalanche, he's talking about the chain fusion reaction that occurs. He's like once the fusion reaction happens, you have all this chemical reaction happening. This product gets created, this creates another one and you have this avalanche occur. And it's saying right here we want to take a look around the 600 KV range. So he's saying I did some quick math or just from his experience and he's saying this range is probably where you're going to find the best reactions right within where Grock was saying. Okay. Uh, and then this is just a pretty interesting thing. The scheme for designing a an HB11 reactor. Now, I'm not go through all this, but at the very middle, you have your gas, your boron target, and you're shooting it with your lasers here. This is very similar to polywell, very similar to field reverse configuration. The idea that you're shooting your laser into the target in the center, you're going to have your plasmoid get created in the middle of this thing. interesting. And it's uh it's literally a sphere. Literally a plasma sphere here as well. So, I'm very curious to see what this would look like if we saw one of these things operating. And I think some of these plasma fusion companies, like why people wonder, have I been uh ribbing, not really ribbing, I guess, but been uh asking David Kirkley a lot of questions. I think these fusion companies, they're going to have seen these plasmas that look a lot like the plasmas in the MH370 videos. Okay, that was a little more science than I thought, but there you guys go. Now, guys, everybody in this live stream, all of you can say, "I learned science today." Amazing. What a feat. Brag to your friends.