|  For a moment, imagine a world of limitless energy – a world where there’s so much energy produced that everyone, everywhere, can power their homes, apartments, and offices at all hours of the day, with just pennies. These days, it’s tough to imagine a world like that. Last winter, for example, the average U.S. heating bill exceeded $1,000. But thanks to a potentially world-changing scientific breakthrough that was recently announced, the ostensibly utopian world of limitless energy could soon become a reality. Prescient investors stand to make fortunes in this limitless energy breakthrough. That’s why both Microsoft (MSFT) – the world’s second most valuable company – and ChatGPT’s creator Sam Altman are both betting big on this very limitless energy breakthrough right now. In fact, Microsoft recently announced a huge deal to start buying a ton of this limitless energy as soon as 2028. Interested? You should be… We’re talking about arguably the biggest scientific breakthrough of our lifetimes, and maybe the biggest investment opportunity of our lifetimes, too. Believe it or not, it all has to do with nuclear power. | | | | | SPONSORED  If you have a large portfolio, Keith believes his "payout" strategies could help you make six figures in the coming 6-12 months…
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On June 4th at midnight, he's removing the $4,000 discount he's offering for this trading tool. Details here. | | | The Power of the Sun Nuclear power has a bad reputation – and I get it. Nuclear power has been used to create bombs which have destroyed whole cities, and when the world tried to capture that power in a nuclear power plant, some of those plants had catastrophic explosions. Not once. Not twice. But time and time again. The nuclear power of the past deserves its bad wrap. But not all nuclear power is created equal. Specifically, there are two types of nuclear power: Nuclear fusion and nuclear fission. Everything the world has done to-date with nuclear power has been in the world of nuclear fission, which involves splitting apart atoms and capturing and using the energy produced from the splitting. This scientific process can be risky and dangerous for two reasons. First, when you split atoms, you create chain reactions which have to be very carefully controlled – else they could cause meltdowns and explosions. Second, fission produces radioactive waste, which needs to be carefully stored so as to avoid contaminating the surrounding environment. Nuclear fission is dangerous stuff. But nuclear fusion is not. Whereas nuclear fission revolves around splitting atoms, nuclear fusion is all about combining atoms. 
Specifically, nuclear fusion is a process in which atomic nuclei combine to form a heavier nucleus, releasing a large amount of energy in the process. This energy is released in the form of light and heat. Importantly, nuclear fusion does not depend on any chain reactions and does not produce any radioactive waste. It is entirely stable without any negative byproducts. It’s the clean and safe version of nuclear fission. More than that, though, nuclear fusion is simply the better version of nuclear fission. That’s because nuclear fusion produces infinitely more energy than nuclear fission. Consider this: The sun is powered by nuclear fusion. At the core of the sun, temperatures reach up to 27 million degrees Fahrenheit, which is hot enough to allow nuclear fusion to take place. Under these extreme conditions, hydrogen atoms are forced together, forming helium and releasing a tremendous amount of energy in the process. This energy is so powerful that it travels to the surface of the sun, where it then travels another 93 million miles to warm up and light the Earth. Nuclear fusion is powerful stuff. Just a few pounds of hydrogen inputted into a nuclear fusion reaction will produce as much energy as burning thousands of pounds of coal or oil. A small cup of hydrogen fuel could theoretically power a house for hundreds of years. Extending that thinking out, a few nuclear fusion reactors could power the entire world for hundreds upon hundreds of years. Nuclear fusion is the key to creating limitless energy for humans. If so, then why are there dozens of nuclear fission reactors in the world, yet zero nuclear fusion reactors? Because while nuclear fission is a risky science, nuclear fusion is a tough science – a science so tough that no one has figured out how to make a viable nuclear fusion reactor. Until a couple of years ago… | | | SPONSORED  A major pivot is coming to the U.S. stock market. Luke Lango reveals that it all comes down to two extremely rare events that are about to converge at the same time.
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Click here to position yourself for the upcoming bull market. | | | A Critical Breakthrough The challenge of nuclear fusion, in short, boils down to something called “net energy gain”. Net energy gain can be defined by the difference between the energy consumed by an energy production process, and the energy produced by that same process. It is energy output minus energy input. Obviously, you need net energy gain for an energy source to be positive in order for that energy source to be viable. A negative net energy gain means the energy source consumes more energy than it produces. Nuclear fusion has historically suffered from a negative net energy gain. That’s because the conditions under which nuclear fusion is possible are extremely energy intensive. Think of it this way: The only places in the Universe where nuclear fusion happens naturally are in the cores of stars. The cores of stars contain incredibly unique conditions. Namely, they are unimaginably hot. The sun’s core, for example, runs at around 27 million degrees Fahrenheit. Those extremely hot temperatures are what sparks nuclear fusion. Therefore, in order for scientists to replicate nuclear fusion on Earth, they need to create a reactor that gets really, really, really hot, and stays really, really, really hot. Getting something really, really, really hot requires a lot of energy. Keeping it really, really, really hot also requires a lot of energy. Historically speaking, the math hasn’t worked out to make nuclear fusion viable. Every nuclear fusion experiment to-date has resulted in a negative net energy gain. Until December 2022. Physicists at Lawrence Livermore National Laboratory in California announced just months ago that they had created the world’s first nuclear fusion project with a positive net energy gain. And, just this past summer, those scientists repeated that experiment… with even better results! That’s a huge deal. The one obstacle that has kept nuclear fusion from becoming a viable reality – and one that scientists had expected to remain unsolved for decades – has just been removed. With it removed, the Livermore project has set in motion a multi-decade trend of nuclear fusion technology reshaping the world’s energy system. By 2040, we now have clear visibility to the world being powered by nothing more than a few nuclear fusion reactors. Forget oil, forget gas, forget windmills and forget giant solar farms. In the future, all we may need to power the entire world is a few nuclear fusion reactors. Needless to say, the operators of those reactors could be the world’s most valuable companies. Their stocks could be the market’s biggest winners. And the time to invest in the Nuclear Fusion Revolution is now. The Final Word I like to stay on the cutting edge of world-changing technological developments, because that’s where all the big money is made on Wall Street – taking big and bold stakes on early-stage companies pioneering breakthrough technologies. As a person hyper focused on the cutting edge of tech, I’m foaming-at-the-mouth bullish on nuclear fusion technology. Nuclear fusion is the mysterious “limitless energy” source that will solve the world’s energy needs forever. Technical challenges have held it back for decades. But for the first time ever, those technical challenges are being overcome as we speak. The result? A nuclear fusion boom over the next decade, wherein nuclear fusion reactors reshape the world’s energy landscape. I’m not the only one taking notice. Just last summer, Microsoft inked what is believed to be the first-ever commercial nuclear fusion deal, wherein Microsoft will purchase nuclear fusion electricity from startup Helion Energy by 2028. The agreement specifically states that Helion will produce electricity through fusion by 2028 and target power generation for Microsoft of at least 50 megawatts after a year or pay financial penalties. This is a huge deal! Clearly, Microsoft – one of the world’s smartest companies – believes that nuclear fusion is just years away from being a viable reality. “We wouldn’t enter into this agreement if we were not optimistic that engineering advances are gaining momentum,” said Microsoft President Brad Smith. Oh, and the startup that Microsoft is buying nuclear fusion energy from – Helion Energy – is backed by Sam Altman, the same guy who is the CEO of OpenAI, the firm that made the ChatGPT AI chatbot that everyone is buzzing about these days. Folks, the smart money has spoken. The limitless energy revolution has arrived, and the time to claim your stake in this wealth-generation phenomenon is now. Sincerely, | 
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