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Power

Scientists Successfully Replicate Historic Nuclear Fusion Breakthrough Three Times (cnn.com) 124

After producing a nuclear fusion reaction last year that released more energy than it used, scientists at the National Ignition Facility at the Lawrence Livermore National Laboratory in California (LLNL) say they have successfully replicated the process at least three times this year. "This marks another significant step in what could one day be an important solution to the global climate crisis, driven primarily by the burning of fossil fuels," reports CNN. The announcement appears in a December report (PDF) from the LLNL. From the report: After making their historic net energy gain last year, the next important step was to prove the process could be replicated. Brian Appelbe, a research fellow from the Centre for Inertial Fusion Studies at Imperial College London, said the ability to replicate demonstrates the "robustness" of the process, showing it can be achieved even when conditions such as the laser or fuel pellet are varied. Each experiment also offers an opportunity to study the physics of ignition in detail, Appelbe told CNN. "This provides valuable information to the scientists in addressing the next challenge to be overcome: how to maximize the energy that can be obtained."

There are different ways of creating energy from fusion, but at NIF, scientists fire an array of nearly 200 lasers at a pellet of hydrogen fuel inside a diamond capsule the size of a peppercorn, itself inside a gold cylinder. The lasers heat up the cylinder's outside, creating a series of very fast explosions, generating large amounts of energy collected as heat. The energy produced in December 2022 was small -- it took around 2 megajoules to power the reaction, which released a total of 3.15 megajoules, enough to boil around 10 kettles of water. But it was sufficient to make it a successful ignition and to prove that laser fusion could create energy.

Since then, the scientists have done it several more times. On July 30, the NIF laser delivered a little over 2 megajoules to the target, which resulted in 3.88 megajoules of energy -- their highest yield achieved to date, according to the report. Two subsequent experiments in October also delivered net gains. "These results demonstrated NIF's ability to consistently produce fusion energy at multi-megajoule levels," the report said. There is still a very long way to go, however, until nuclear fusion reaches the scale needed to power electric grids and heating systems. The focus now is on building on the progress made and figuring out how to dramatically scale up fusion projects and significantly bring down costs.

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Scientists Successfully Replicate Historic Nuclear Fusion Breakthrough Three Times

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  • by vivian ( 156520 ) on Wednesday December 20, 2023 @09:07PM (#64094957)

    This is physics break even. Do they still have to increase the efficiency of the lasers by two orders of magnitude to get close to breaking even on actual energy used to power the lasers vs energy released from fusion, or is it closer than that?

    I hate to sound negative about such a momentous achievement, but I feel the statement
    "This marks another significant step in what could one day be an important solution to the global climate crisis, driven primarily by the burning of fossil fuels,"
    might be a little overly optomistic.

    • by Baron_Yam ( 643147 ) on Wednesday December 20, 2023 @09:11PM (#64094963)

      I will be extremely surprised if fusion is the answer to becoming carbon-neutral in time to make a difference to the carbon budget. We're going to have to resolve that the way we've been going.

      However, once fusion comes along it'll be nice to be able to go back to a power source that doesn't require epic amounts of storage to compensate for highly variable generation capacity.

      • Look in to MIT SPARC technology. Using commercially available high temperature superconductors. Expected to have net power generation from the machine as a whole not just the reactor core. Prototype unit should come online in 2025.
        • by gweihir ( 88907 )

          Bullshit. They may have a proof-of-concept by 2025. That is in no way a prototype. A prototype requires a _lot_ more R&D.

          • by ISayWeOnlyToBePolite ( 721679 ) on Thursday December 21, 2023 @01:11AM (#64095297)

            https://www.psfc.mit.edu/sparc... [mit.edu]

            Will we then have fusion electric power plants?
            No, not yet. Even though SPARC will, if successful, yield net energy and large amounts of power from fusion, it is intentionally designed as a pulsed experiment and would not convert its fusion energy into electricity. The next step would be to build a net-electricity producing fusion power plant, based on this new magnet technology — while its details are to be determined, we call this device ARC.

            On this path, how long would it take before fusion energy is on the grid?
            MIT scientists and their collaborators believe that ARC — a fusion power plant that would produce electricity continuously — could be built and operating by early 2030.

            • 7 years! Shortest prediction I've seen for a while in fusion tech.

              • The SPARC design is a matter of engineering but not basic science. Mark my words. SPARC and high temp superconductors are the solution. In well under a decade.
                • by gweihir ( 88907 )

                  I will mark your words as "yet another person clueless about R&D realities" and about the realities of actually doing a large-scale deployment of a technology.

                  • I will mark your words as "yet another person clueless about R&D realities" and about the realities of actually doing a large-scale deployment of a technology.

                    Maybe the clueless folks think it is similar to fission power. Only took a few years until we could generate power from them.

                    Well, fusion isn't as simple as putting radioactive elements together in a reactor to fission and generate heat.

                    And here we are all these years later with a Qtotal of .01 for an extremely short amount of time, and people telling us to "mark" their words.

                    And here we are with bullshit dispensers who appear to cherry pick the information they feed us with things like virtually un

              • Yes, I'm approaching the big sixty and it's been 50 years away all my life, unfortunately.
              • The current tag line at the bottom of the page is: There is no likelihood man can ever tap the power of the atom. -- Robert Millikan, Nobel Prize in Physics, 1923
                • The current tag line at the bottom of the page is: There is no likelihood man can ever tap the power of the atom. -- Robert Millikan, Nobel Prize in Physics, 1923

                  Things change - after controlled fission, the possible uses for fission based devices became interesting. Fission could generate heat to be used for running turbines, and Oh Noes! if all that energy was released at once, things could go boom! Then we figured out that if we fused two elements together, we could make even bigger booms from the energy released.

                  Okay. But there was a hella lot of energy needed to fuse elements - the nookyaler fusion bombs used a fission bomb to start their nasty work. Fusion

              • Tesla will have it available next year!

            • MIT scientists and their collaborators believe that ARC â" a fusion power plant that would produce electricity continuously â" could be built and operating by early 2030.

              I like the use of the word "collaborators" there because in the public's mind (the subset of people that have even heard the word before that is) it implies wrongdoing. And telling lies like this is that.

            • https://www.psfc.mit.edu/sparc... [mit.edu]

              Will we then have fusion electric power plants? No, not yet. Even though SPARC will, if successful, yield net energy and large amounts of power from fusion, it is intentionally designed as a pulsed experiment and would not convert its fusion energy into electricity. The next step would be to build a net-electricity producing fusion power plant, based on this new magnet technology — while its details are to be determined, we call this device ARC.

              On this path, how long would it take before fusion energy is on the grid? MIT scientists and their collaborators believe that ARC — a fusion power plant that would produce electricity continuously — could be built and operating by early 2030.

              Amazing that we already know when Fusion power-up will happen from experiments that haven't even happened yet.

      • Re: (Score:3, Insightful)

        by Anonymous Coward

        However, once fusion comes along it'll be nice to be able to go back to a power source that doesn't require epic amounts of storage to compensate for highly variable generation capacity.

        We already have that and it's nuclear - but fission not fusion. Reliable, safe, predictable but, unfortunately, fairly expensive.

        However, "environmentalists" in the US pretty much killed the domestic industry because they preferred to burn coal, pollute the air, and accelerate global climate change because "nuclear scary, sc

      • by gweihir ( 88907 )

        You will not be surprised. Even if we had the full plans for a well-working fusion plant now, it would come too late. Industrialization alone will take something like 20-30 years and wide-scale deployment another 20-50 years. Hence to change this will solve the problem. It may be critical for survival of the human race when things get really nasty in 100 years or so.

        • You will not be surprised. Even if we had the full plans for a well-working fusion plant now, it would come too late. Industrialization alone will take something like 20-30 years and wide-scale deployment another 20-50 years. Hence to change this will solve the problem. It may be critical for survival of the human race when things get really nasty in 100 years or so.

          Sure. So when China announces the first engineering model, and after that builds out its fusion fleet in five years, we can all bitch about China "stealing" "our" technology.

          • by gweihir ( 88907 )

            China is not going to do that. They are just as limited by what engineering can and cannot do in a specific amount of time.

          • You will not be surprised. Even if we had the full plans for a well-working fusion plant now, it would come too late. Industrialization alone will take something like 20-30 years and wide-scale deployment another 20-50 years. Hence to change this will solve the problem. It may be critical for survival of the human race when things get really nasty in 100 years or so.

            Sure. So when China announces the first engineering model, and after that builds out its fusion fleet in five years, we can all bitch about China "stealing" "our" technology.

            Sounds like they use different laws of physics to do that. Thes 'Murrican and European physics are having trouble with this fusion power thingy.

      • It really depends.

        Humanity generally avoids proactive intelligence and when we don't, we rarely execute said intelligence in the most foolish manor.

        We are a reactive species. If we see a meteor barreling through space to destroy earth, we we'll invest all human resources toward building massive rockets to move earth almost completely out of the way. This impressive human achievement occurs moments before someone realizes the meteor was just a bug on the telescope lens.

        I predict we'll become far more skilled
        • Fact Check:
          Carbon capture doesn't work in China or anywhere else.
          • Fact Check: Carbon capture doesn't work in China or anywhere else.

            I keep trying to tell people that anything that will re-sequester carbon on a global scale will introduce problems as bad or worse than what is going to happen, with wide ranging problems from extincting a lot of species, needing a thousand plus year of accepting acid rain and all of its health and environmental problems. A review of the physics involved tells us that a huge global effort to inject aerosols or sort of re-create the middle precambrian oceans by dumping iron into them to cause algae blooms -

        • What a bunch of dumb nonsense that post was.

      • I will be extremely surprised if fusion is the answer to becoming carbon-neutral in time to make a difference to the carbon budget. We're going to have to resolve that the way we've been going.

        However, once fusion comes along it'll be nice to be able to go back to a power source that doesn't require epic amounts of storage to compensate for highly variable generation capacity.

        A couple points.

        The carbon in the atmosphere isn't going away any time soon, so it's already too late for fusion.

        The other thing is that old school fission reactors will need to be built to supply tritium. The world's supply of tritium will go away as soon as the ITER people star their quixotic quest. At that point, we probably need to build many more reactors to produce the tritium needed.

        While a lot of people have achieved orgasm over the so called break even point, the Qtot figure is where the Rub

    • ...actual power generation is putting human explorers at Alpha Centauri.
    • by PPH ( 736903 )

      it took around 2 megajoules to power the reaction, which released a total of 3.15 megajoules, enough to boil around 10 kettles of water

      So, more than break even. But not really if you consider all the energy consumed keeping the lights on in the facility and running the microwaves in the lunchroom. Even if we figure that these parasitic loads don't scale up with the device output, what is the capital investment needed to boil 10 kettles of water (can we get that in Olympic swimming pools)? And how will that scale?

      • It's worse than that. The lasers are about 1% efficient. Possibly less.

        • by gweihir ( 88907 )

          That bad? I think I read the microwave heaters on the X7 are a lot more efficient and they are only needed initially and possibly for control. If the lasers are at 1% at the moment, then this may still take half a century or more to become viable or may fail to become viable. Laser research is slow.

      • But not really if you consider all the energy consumed keeping the lights on in the facility and running the microwaves in the lunchroom.

        If only they could have powered the experiment with the lights and microwave ovens off.

    • Think less like a scientist, more like an engineer. Just because we haven't achieved the required efficiencies in the past does not mean it can't be done. I believe we will get there, and industry people are optimistic.

      • by ctilsie242 ( 4841247 ) on Wednesday December 20, 2023 @10:25PM (#64095061)

        If we had people immediately give up because something wasn't immediately marketable, we wouldn't have any real technological advances. Fusion will solve many problems of today, and it can ensure that countries can feed their populations, be it easier access to desalination plants, chemically expensive processes with what energy availability we have now, which will be inexpensive with fusion, this can go a long way to clean up our mess as a species. Trash floating in the ocean? A ship with a fusion reactor and thermal depolymerization can come back to shore with a lot of short-chain mineral oil and a dent in the Pacific Gyre garbage patch. Easier fixing of nitrogen for fertilizer so otherwise infertile regions can be used for crop growing. Using electrolysis to cause minerals to precipitate from seawater to shore up islands from rising tides.

        Energy is wealth.

        • by GJB68 ( 9209659 )
          Clearly nobody is giving up. But we will soon have been working on this for 100 years with no real engineering solution in sight. Dreaming up uses for free energy (and by the way fusion is unlikely to be cheap or clean) does not help. A number of very large hurdles are still unresolved in principle and conveniently ignored by this type of reporting.
        • If we had people immediately give up because something wasn't immediately marketable, we wouldn't have any real technological advances. Fusion will solve many problems of today, and it can ensure that countries can feed their populations, be it easier access to desalination plants, chemically expensive processes with what energy availability we have now, which will be inexpensive with fusion, this can go a long way to clean up our mess as a species. Trash floating in the ocean? A ship with a fusion reactor and thermal depolymerization can come back to shore with a lot of short-chain mineral oil and a dent in the Pacific Gyre garbage patch. Easier fixing of nitrogen for fertilizer so otherwise infertile regions can be used for crop growing. Using electrolysis to cause minerals to precipitate from seawater to shore up islands from rising tides.

          Energy is wealth.

          Oh my gawd. You are adorable! For you, IGY by Donald Fagen of Steely Dan:

          Standing tough under stars and stripes

          We can tell

          This dream's in sight

          You've got to admit it

          At this point in time that it's clear

          The future looks bright

          On that train all graphite and glitter

          Undersea by rail

          Ninety minutes from NewYork to Paris

          Well by seventy-six we'll be A.O.K.

          What a beautiful world this will be

          What a glorious time to be free

          Get your ticket to that wheel in space

          While there's time

          The fix is in

          You'll

      • by vivian ( 156520 ) on Wednesday December 20, 2023 @10:59PM (#64095121)

        To give you an idea of the efficiencies involved, here's approximately what they did:

        A capacitor bank is charged with about 110 kwh (400MJ) to drive flash tubes to optically pump the lasers, producing 2.05 MJ of laser light that has peak energy of 500TW for a few nanoseconds.
        electricity -> laser energy 0.51% (This is not a typo - about half a percent)
        The laser energy is focused onto a fuel capsule chilled to 18 Kelvin, compressing it, absorbing about 15kJ of laser light to do so.
        Laser energy -> capsule compression efficiency: 0.1%
        Capsule fusion ignition energy released: 3.15 MJ ( about 0.875 KWh)

        So the laser energy in to nuclear power released is indeed about 1.5, and well above scientific break even. Unfortunately it once you include the losses in generating laser light from electricity, and converting heat from the nuclear reaction into steam to drive a turbine ( which is about 50% efficient for a good one), overall you are looking at less than half a percent efficiency for electrical energy in to electrical energy out.

        even worse, this whole huge facility is only capable of generating less than 1kwh of heat energy per pulse, which would end up being 0.5kwh per pulse if it was converted to electricity using a very efficient steam turbine.
        You would have to run this at two pulses per second just to generate a measly 1MW of continuous power, or a completely unrealistic 2000 pulses per second to generate 1GW of power continuously. The fuel capsule can't be scaled up to produce more energy - it needs to be small for this ignition method to work.

        The other missing steps:
        Energy needed to chill capsule to 18 Kelvin (-255 C) and pre-chill the lasers to prevent them being damaged during each pulse. this previously took days - now they can do it in hours, so they can generate up to 700 pulses per year.

        This is important research, to help understand fusion better - both for weapons and for understanding the fission process better so that knowledge can be incorporated in other nuclear fission reactors, and I by no means intend to belittle the achievement of all those working on this project, or it's importance.

        I seriously doubt that it can ever be a practical source of energy though.
        What it will most likely lead to is development of more efficient high energy lasers, which will probably find their way into both industrial uses, and weapons systems.

        • Great post. But I will point out, a car engine easily produces over 2000 pulses of energy per second, per cylinder.
          • A car engine doesn't require perfectly spherical, super-cooled capsules to be the fuel. Tokamak reactors likely stand a much better chance of being commercially viable.
        • I seriously doubt that it can ever be a practical source of energy though.

          The danger of saying "ever" is that you can't predict what other technologies we'll invent along the way.

          Your statement is like a scientist from the 40's saying, "I doubt we'll ever fly to the moon, because we'd need computers to do that, and there's no way you can fit all those vacuum tubes, punch card readers, and refrigeration units on a spacecraft."

          • I seriously doubt that it can ever be a practical source of energy though.

            The danger of saying "ever" is that you can't predict what other technologies we'll invent along the way.

            Your statement is like a scientist from the 40's saying, "I doubt we'll ever fly to the moon, because we'd need computers to do that, and there's no way you can fit all those vacuum tubes, punch card readers, and refrigeration units on a spacecraft."

            True because we might discover zero point energy and implement it.

            Of course, that will make fusion power completely redundant.

            Same with the efficiencies needed.

            The concept of willing something into reality - somehow manifesting it - does not mean that it can be done. Even fusion weapons need a fission weapon to pump the energy into it. So we're seeing the issues of trying to control it.

            Enough energy to fuse the elements involved, enough energy to do it continuously, and more energy out of the fusion

      • by gweihir ( 88907 )

        Sure. But engineering new stuff is a _slow_ process when you need to do a lot of things from scratch. This may well mean 50 years to the efficient and durable lasers that are needed here.

      • Think less like a scientist, more like an engineer. Just because we haven't achieved the required efficiencies in the past does not mean it can't be done. I believe we will get there, and industry people are optimistic.

        Oh - so it's a done deal! 8^)

        There's a saying down south "Wish in one hand, and shit in the other. See which one fills up first."

        When we are at .01 efficiency, it is really hard to envision that getting to the point where it's at 200 percent of total break even so it can bootstrap itself.

        • Question your premises, then.

          • Question your premises, then.

            Some things are possible, some are not. We have some real issues with efficiencies here, and maximum efficiencies are not always very changeable.

            There might be some tweaking her or there maybe gain a small fraction of a percent ot if we're lucky, a percent.

            But the immense efficiencies needed to take this whole fusion game from Qtot .01 to at minimum Qtot 200 in itself requires a physics breakthrough not related to fusion based power.

            And here's where the issue lies. What is the path forward? What is

            • So...you're an engineer working on related project? Cuz either billions are being blown by incredibly intelligent, super knowledgeable people who know it's both that simple and utterly impossible, or just maybe you're suffering from the Dunning Kreuger Effect.

              One clue it's the latter is that you've brought in the "just gimme money!" explanation. Some might call it a conspiracy!

              • So...you're an engineer working on related project? Cuz either billions are being blown by incredibly intelligent, super knowledgeable people who know it's both that simple and utterly impossible, or just maybe you're suffering from the Dunning Kreuger Effect.

                One clue it's the latter is that you've brought in the "just gimme money!" explanation. Some might call it a conspiracy!

                At various times in my career, I worked with NucE's. So I do have some experience - What are your bona fides.

                Also noted that you refused to answer my question of where the other Qtot .9999 os going to come from.

                What is your fiewld of research anyhow? MOst researchers know that the solutions exist, and the technology catches up as it improves. One project I was working on in the 1980's had its conceptualization happen in the 1920's.

                I see nothing about the incredible innovations in the current litera

                • But have you specifically worked on these fusion projects, as a creative? Not a technician or safety officer, but building something totally new?

                  I'm trying to avoid talking about the specific question you're asking, as I am pretty sure you're right on that. What I suspect is that if you took several steps and approached the entire question from another angle, the solution might have less to do with increasing laser efficiency. Perhaps sustaining the reaction is the more attainable goal.

                  Right now, what yo

                  • But have you specifically worked on these fusion projects, as a creative?

                    Okay homie - here we go. { stretching, doing a neck crunch}

                    Which ongoing fusion projects have you worked on? I keep asking for some points, but get none. Your claim that I am not able to make a valid statement since I have not worked directly with the present fusion project and that is some sort of disqualification is at first amusing, then I realize I'm dealing with either a very poor version of a troll, or someone that believes rules for thee, none for me, amirite, homie?

                    Well, my friend - you obviou

                    • There IS such a thing as Dunning Kreuger, even within disciplines!

                      But I see you're still talking about lasers. Can you consider that currently unforseen advancements in other areas may result in novel approaches to providing the energy? Or that the energy requirement might fall?

    • by gweihir ( 88907 )

      Probably 30-50 years. One thing with fusion is that a lot of material science and equipment R&D still needs to be done to make it work longer-time. For example, the lasers used in this experiment may need a decade or two to be fit for continuous use.

      The main achievement here is reaching a milestone, but progress will continue to be slow. This does tell us that it is worthwhile to pursue this line of research though, same as developments with the X7. Anybody expecting practical useful plants in the next

    • By the times its practical, it'll probably be replacing the renewables that replaced the fossils
    • by Space ( 13455 )

      It sounds like they lost energy when you consider the amount of energy stored in the ultracompressed hydrogen in the middle of a diamond and gold encased fuel pellet.

    • Hold on let me fire up my 3d holographic storage disk drive and find out.

    • Two orders of magnitude is about right. It takes something north of 400 MJ to run the experiment, for 3.x MJ output. This doesn't really have a path toward making practical fusion power, at least not through incremental efficiency improvements.

      • Two orders of magnitude is about right. It takes something north of 400 MJ to run the experiment, for 3.x MJ output. This doesn't really have a path toward making practical fusion power, at least not through incremental efficiency improvements.

        We always have to remember that Fusion warheads are triggered by fission devices. If nothing else, that gives a big clue of the energy needed, and the only way we know how to generate a lot of it.

    • Shit man, this is crazy impressive, they've been trying for DECADES to get to this point of physics break even. Give them at least a year to prove that it its real and not a fluke. And man, they need more money to continue their research so yeah, there's going to be some crazy statement in there that's overly optimistic and points towards a glorious future based on continued research. Everyone knows that, who isn't a politician looking to cut funding.
    • This is physics break even. Do they still have to increase the efficiency of the lasers by two orders of magnitude to get close to breaking even on actual energy used to power the lasers vs energy released from fusion, or is it closer than that?

      I hate to sound negative about such a momentous achievement, but I feel the statement "This marks another significant step in what could one day be an important solution to the global climate crisis, driven primarily by the burning of fossil fuels," might be a little overly optomistic.

      Way optimistic. You are so right.

      For all of the breathless orgasming over this so called break even point, it's not much more than came before it. It ignores the immense amount of energy needed to hit that break even point. Like powering the lasers, the cooling system power needs, all of that incidental stuff. Then there is the mechanical aspects of going from a tiny fraction of a second to a constantly running device, spewing out neutrons like there was no tomorrow.

      It won't be clean - those neutrons

  • Xeno's Fusion (Score:5, Insightful)

    by Baron_Yam ( 643147 ) on Wednesday December 20, 2023 @09:09PM (#64094961)

    While it's (massive) progress that's been promised '10 years from now' for longer than I've been alive... this is over-unity at the point of fusion, according to the math.

    They're deliberately ignoring conversion efficiencies involved in converting that fusion heat into electrical power - this device is nowhere near over-unity in terms of taking the output heat and generating enough electrical power from it to maintain the reaction. We're still '10 years away' from that. And once that happens, it'll be another '10 years away' before the excess power is anywhere near enough to justify building a power plant.

    Not that we should stop the science and engineering attempts to do so - just that we should also be aware we're not getting our mobile Mr. Fusion units next Christmas.

  • by MIPSPro ( 10156657 ) on Wednesday December 20, 2023 @09:17PM (#64094977)
    Solar and Wind are intermittent and require dangerous/complicated/expensive/space-consuming storage for most commercial applications. Fossil fuels pollute and some believe are also contributing significantly to climate change. I'm wishing hard, because I sure as hell can't help these guys, but I want fusion power so badly due to the positive changes I think we'd see in an environment were energy prices were 10x lower. Cheap food, cheap travel, cheap production of cheap (or nice) products. ERoI is a bitch. However, imagine if we could produce so much free power in a nuclear reactor we could simply convert the excess carbon in the atmosphere to common liquid fuels? We know some ways to do this, now. However, we don't push hard in that direction because of the horribly inefficient processes and tremendous cost in energy. Same with water desalination. Do folks realize how bad ass it would be to pump pure freshwater into unproductive land? The Sahara Desert used to be a rainforest and could be again, along with many other deserts.
    Please be true, and not take 10 years. Please
    • by Shaitan ( 22585 ) on Wednesday December 20, 2023 @10:43PM (#64095099)

      "Do folks realize how bad ass it would be to pump pure freshwater into unproductive land? The Sahara Desert used to be a rainforest and could be again, along with many other deserts."

      What a terrible idea! Do you have any idea what kind of terrible changes you'll cause to global weather if you suddenly start artificially adding that kind of moisture to large arid regions? Nope and neither does anyone else but I very much doubt you can do so without causing harm for someone else.

    • H owever, imagine if we could produce so much free power in a nuclear reactor we could simply convert the excess carbon in the atmosphere to common liquid fuels

      Who will be paying for all that capacity? Would we expect those companies with now-obsolete fission, gas and oil power plants to spend money for generating more electricity than what the grid currently demands?

    • Aside from the problems of achieving net positive output, there are practical problems that are far from being solved. The laser ignition demonstrated here has no practical path to producing power. Neither does magnetic confinement used in the Z-machine. The tokamak designs that are the primary focus use tritium, which is far more rare than most people realize. There are ideas for doing tritium generation on-site using lithium-6 blankets that capture neutrons and generate tritium (L6 + n -> He4 + T), but

    • You forgot the best part. No longer having to rely on the Middle East.

    • So massive amounts of nearly free (fusion or whatever) energy would be a win for humanity. What an excellent observation!

  • Yes yes we get it (Score:3, Informative)

    by burtosis ( 1124179 ) on Wednesday December 20, 2023 @09:19PM (#64094987)
    Americas nuclear fusion weapons are to be feared the world over as superior unalivement devices. Because that’s all this facility was ever designed for, all it was ever capable of doing - validating computer models by simulating the gamma ray burst from the fission detonator by using lasers. It was never intended for and cannot be used even in principle for generating power. The pulsed lasers are insanely inefficient and the net energy in is nowhere close to breaking even, further the pellets can’t be made economically - this approach does not make sense in any way. For making nuclear weapons to annihilate your enemies, it’s quite effective and has allowed American nuclear weapon design to dominate and this is just another humble brag.
    • People who don't do for a living always see how it's done in the past and can't see past that. The engineers with prove us all wrong.

    • by Tailhook ( 98486 )

      I can't tell you how much it pleases me that NIF and the headlines it makes gets under the skin of so many people. Self righteous greenies that simply can't tolerate the slightest suggestion, yet still only a distant and speculative hope, that we might solve our energy problems with anything other than energy poverty. The Blame America Firsters that lose their minds because a US weapons lab could be worthy of anything other than derision.

      Go NIF!

  • I've been waiting for this moment for a long time. I'm so excited my wait is over!

    It won't be long between now, and an 'always on' laser, fed by a stream of fusion spherals by a hopper. I've got my money on 20 years.

    I can taste the future already. Its tastes kinda like a billion volt battery that never drains.

    --
    Fraternity without absorption, union without fusion. - Wilfrid Laurier

  • by RossCWilliams ( 5513152 ) on Wednesday December 20, 2023 @10:08PM (#64095045)
    As others have noted, they haven't really produced more power than they used. That doesn't negate that they have accomplished. They have a method of creating a controlled fission process. Its not like anyone doubted if you can get fission to happen you will get more energy out than you put in. We figured that out in the 1940's. But there are a bunch of people investing their money in fusion right now. They got a big boost from John Kerry at COPS. This story is more of the same. As long as the venture capitalists keep the money flowing someone will be figuring out how to use it profitably. In the mean time, we need public investment in spreading solar to existing rooftops. We have a huge fusion reactor producing enormous amounts of energy each day. All we need to do is collect it.
    • That should been "get fusion to happen+ not fission. Hydrogen bombs work just fine, more energy out than put in. etc. The problem is to harness that energy, not to produce it.
  • The tiresome "Twenty years away, and always will be..." comment will be repeated three times. Because it's magic, you know.

    • author of sensarionalist article and you don't seem to realize 400 MJ powered the lasers so of course whole thing is net loss as not even 1 percent that energy resulted by fusion, and zero percent of that energy used to make electricity.

      so yes, 20 years and billions of dollars out and always will be.

      This is not the solution you wish existed.

  • 10 kettles sounds fine but how many fluid ounces were in each? And how many of those would it take to fill a Library of Congress?
  • Now make sure that it can done several times per second (rather than a few times a year) and that total energy balance is positive (it remains very negative due to the fact that monster lasers used consume far more energy than that obtained by the fusion process), and we will be there. I hope it is not a matter of "the five percent left to do will take ninety-five percent of the total time".
  • "There are different ways of creating energy from fusion, but at NIF, scientists fire an array of nearly 200 lasers at a pellet of hydrogen fuel inside a diamond capsule the size of a peppercorn, itself inside a gold cylinder"

    Let us put actual numbers to this.

    The fuel capsules take something like 500 man-hours to prepare. Assuming minimum wage, the assembly time alone runs around $7500.

    The explosions create about 15 MJ of energy. This creates heat, which in a power plant would be used to create steam and ru

    • Anyone see the problem?

      It was, is, and forever will be a nuclear weapons design facility. The reason it seems stupid is because no scientist could justify such a device for generating power or even learning how to generate power. But, given the treaty on weapons testing, and given the $$$ spent on nuclear weapons, this provided a very good return yielding the most powerful fusion bombs in the world by a long shot. This is like designing a belt fed machine gun to understand how to build an internal combustion engine, the fuel,

"All the people are so happy now, their heads are caving in. I'm glad they are a snowman with protective rubber skin" -- They Might Be Giants

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