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Power Space

Could a Black Hole Surrounded by Energy-Harvesters Really Power a Civilization? (sciencemag.org) 77

"In the long-running TV show Doctor Who, aliens known as time lords derived their power from the captured heart of a black hole, which provided energy for their planet and time travel technology," writes Science magazine.

"The idea has merit, according to a new study."

Slashdot reader sciencehabit quotes their report: Researchers have shown that highly advanced alien civilizations could theoretically build megastructures called Dyson spheres around black holes to harness their energy, which can be 100,000 times that of our Sun. The work could even give us a way to detect the existence of these extraterrestrial societies...

Black holes are typically thought of as consumers rather than producers of energy. Yet their huge gravitational fields can generate power through several theoretical processes. These include the radiation emitted from the accumulation of gas around the hole, the spinning "accretion" disk of matter slowly falling toward the event horizon, the relativistic jets of matter and energy that shoot out along the hole's axis of rotation, and Hawking radiation—a theoretical way that black holes can lose mass, releasing energy in the process.

From their calculations, researchers concluded that the accretion disk, surrounding gas, and jets of black holes can all serve as viable energy sources. In fact, the energy from the accretion disk alone of a stellar black hole of 20 solar masses could provide the same amount of power as Dyson spheres around 100,000 stars, the team will report next month in the Monthly Notices of the Royal Astronomical Society. Were a supermassive black hole harnessed, the energy it could provide might be 1 million times larger still.

If such technology is at work, there may be a way to spot it. According to the researchers, the waste heat signal from a so-called "hot" Dyson sphere—one somehow capable of surviving temperatures in excess of 3000 kelvin, above the melting point of known metals—around a stellar mass black hole in the Milky Way would be detectible at ultraviolet wavelengths. Such signals might be found in the data from various telescopes, including NASA's Hubble Space Telescope and Galaxy Evolution Explorer.

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Could a Black Hole Surrounded by Energy-Harvesters Really Power a Civilization?

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  • by Anonymous Coward

    Computers got better, so anything's possible. I mean they told the Wright Brothers it would never fly, so there's your proof. Plus it's shown on a TV show.
    So there you go, it's obviously easy to do, so the biggest question is will it be AC or DC?

    • by Anonymous Coward

      The Doctor Who reference convinced me. They wouldn't be allowed to include something in Doctor Who if it wasn't 100% realistic.

      • Rather than a Dyson sphere (which uses solar energy collection mechanisms that may not be suitable around a black hole, why not create a hollow but stout spherical structure with varying thickness that increases to a point (which would be the lowest altitude relative to the black hole), and allow matter falling onto the sphere to drain down to the lowest point, to let the enormous pull of gravity accelerate it past turbines, which can be used to turn generators? The high gravity would cause the falling matt
      • The Doctor Who reference convinced me. They wouldn't be allowed to include something in Doctor Who if it wasn't 100% realistic.

        In addition, the Romulans - in Star Trek: The Next Generation - used artificial singularities to power their ships.

        I mean - given that TWO classic science fiction shows used this idea, there must be real world merit to it... amirite?

    • yes. it can. the death star power source was loosely based on the concept of....what were we talking about again?
  • by zieroh ( 307208 )

    No [wikipedia.org].

  • Wouldn't a Dyson Sphere stop stuff from falling into it? A barricade. Isn't that where the energy comes from?
    • They do not have the technology of "hatches" or "windows"?

    • Wouldn't a Dyson Sphere stop stuff from falling into it?

      Aha, that's why you pull an Australia and populate the sphere with criminals, the worst of which you throw in the black hole from time to time.

    • There are many difficult aspects of a Dyson sphere. It's why Larry Niven and Jerry Pournelle described a "Ringworld", which is physically more feasible to build.

      • Ringworld is unstable!

        https://physics.stackexchange.... [stackexchange.com]

      • by HiThere ( 15173 )

        A single-piece Dyson sphere is probably unworkable, but multi-segment ones aren't that bad. My favorite one so far is topopolis https://en.wikipedia.org/wiki/... [wikipedia.org] , sometimes called "cosmic spaghetti", which is a tube you live inside of that circles the sun as many times as you want. There are lots of details, but it's perfectly feasible...well, there aren't an obvious deal-breakers, like needing a material of impossible strength, or needing artificial gravity generators, or needing to build the whole thin

    • Only until the sphere falls into it!
    • since the vast amount of what falls into a black hole is gas, your sphere on the outside would have topography to funnel that gas to entry points and use turbines to further extract the potential gravitational energy.
  • I read the brief article (sacrilege?).
    It seems that to draw energy from the accretion disk etc. would require equipment/satellites to be very close. Wouldn't they be subject to the black hole's extreme gravitational pull?

    • by Athanasius ( 306480 ) <slashdot.miggy@org> on Sunday August 22, 2021 @11:40AM (#61717703) Homepage

      Wouldn't they be subject to the black hole's extreme gravitational pull?

      Blackholes don't 'pull'/suck any more than any other mass does.

      So long as they stay high enough so there is a stable orbit, and can boost to maintain that if needs be (versus the drag from the accretion disk and other losses), then there's no problem. If they have sufficient delta-v for continuous thrust they could also 'orbit' lower (above the event horizon, but inside the innermost stable orbit) if that's necessary for efficiency of the energy extraction mechanism. Obviously that risks expending too much energy for it to be worthwhile.

      You just have to ensure you're not on a geodesic that can only go inwards. Now, there's almost certainly going to be relativistic effects to contend with; some mixture of Special (time going slower due to speed) and General (time going slower due to local gravitational gradient), but that's another matter.

      • by dryeo ( 100693 )

        Don't forget tidal forces as you get closer to the event horizon, unless a really big black hole.

        • by HiThere ( 15173 )

          IIUC, for most black holes the tidal forces only become extreme considerably within the event horizon. Where you need to worry about them is around neutron stars, where you have have a stable orbit that gets a lot closer. (Although, if you could survive the radiation, a little thing like tidal forces shouldn't be that much of a problem. There was a reason the "General Products" spaceship hull was invented for that story.)

  • by Cmdr-Absurd ( 780125 ) on Sunday August 22, 2021 @11:18AM (#61717649)
    The Dyson Sphere would need to be at a significant distance from the black hole for several reasons including: It is really really hot close in. And there is a lot of matter flying about at significant % of c. So there's all that pesky collision damage and melting You need to have enough matter _inside_ the sphere to keep the power going for a very long time. It will take _a lot_ of material to construct a sphere of that size. And the sphere itself would block infall of matter from outside. So at the very least, it would be a giant PITA to construct. In theory, we could capture the output of thermonuclear weapons, too. But some of the same problems prevent us from doing so with current tech.
    • by ytene ( 4376651 )
      The only reason that we consider temperatures to be high "close in" to a black hole is because of the matter being accelerated inwards to the event horizon: the gravitational forces are sufficient to pull apart clumps of mass, reducing it down to particulate size and these particles are then heated thanks to friction from they myriad conditions.

      If your alien civilization built a Dyson sphere that was solid matter [the generally recognized form from the name] then no additional matter would pass closer to
    • Or it will need some sort of huge port to guide planet or star size material to enter the Dyson Sphere to keep feeding the black hole occasionally.

      Assuming you can create a Dyson Sphere around a black hole and make it habitable, presumably you will be able to guide "fuel" into the black hole as needed.

  • everything in and end them all.
  • Just 2000 years away!

  • ... black holes are more efficient than fission, and fusion:
    https://www.popularmechanics.c... [popularmechanics.com]

  • Hell, the government is throwing money at people now so get a grant and put a probe up there ASAP! How far away is the nearest black hole?
  • Let's suppose, just for a moment, that humanity had the technical capability, raw materials and conveniently nearby local Black Hole around which to build a Dyson sphere. And, of course, we also had a convenient number of nearby G3 stars around which we could also build a Dyson sphere.

    Knowing that:-
    1. The "energy given off" by a Black hole is in fact the excitation of matter in the accretion disk, which will of course be consumed over time
    2. The challenges of constructing the sphere around a black hole
    • by vux984 ( 928602 )

      re 1 - the energy given off by a regular star is also based on a finite resource.

      re 2 - challenge greater, but reward greater. if a black hole gives back 100,000x the reward (per the summary), it might be worth the effort. Hell it might in the end be a lot less effort if you have the technology to do either. At 100,000x more engergy is a lot. Also, a billionaire will do it for bragging rights. :p

      • Further, a sphere around the black hole is only necessary for full efficiency and to take advantage of radiation. Using the Penrose process [wikipedia.org] you can sap the rotational kinetic energy for power and the rotational kinetic energy is a pretty large % of any real black holes mass. Gravitational singularities generate more power than any other known process and at ludicrous high efficiency so the power and process is there for sure, practically speaking it would be an engineering challenge to say the least.
      • by ytene ( 4376651 )
        That might arguably be a justification for encasing a black hole in a Dyson Sphere, then, if you had a need for an intense amount of energy, in one place, for a relatively short length of time.

        We estimate that our sun has been burning for 4.6 billion years and that it will take another five billion years to turn in to a red giant, destroying the Earth in the process. Now, it’s a bit harder to give any reasonable answer concerning the lifespan of an accretion disk orbiting a black hole: it’s g
  • The article mentions advanced alien civilizations building stuff. This is a serious publication?

    *We* are that advanced alien civilization. If no one has observed a Dyson Sphere its because we were the first.

    Seeding them throughout the galaxy will act as a beacon for any primitive species looking through their telescopes for signs of extraterrestrial life.

    • Seeding them throughout the galaxy will act as a beacon for any primitive species looking through their telescopes for signs of extraterrestrial life.

      Not for up to 100,000 years. It’s not even that short in galactic time, 70,000 back and forth communications across just our galaxy would take since the dawn of time. On galactic scales, distance separates in time fundamentally and the universe is far more isolated than most people imagine.

      • by HiThere ( 15173 )

        Your point is valid, but your conclusion is incorrect. You neglect parallel processing. There are several black holes around...the central one probably isn't feasible to use (for multiple reasons.

        OTOH, I don't think a classic Dyson Sphere as imagined is possible for any technology. But there are ways around it which still capture much of the energy of the central mass. And I surely don't believe that any species based around chemical metabolism would live in a place hot enough to emit ultra-violet. So

  • ...but for sure they will put a tax on it.
  • above the melting point of known metals

    My light bulb would like a word with you.

  • At 3000K the surface of the sphere is giving off lots of useful radiation that can still do work. No advanced civilization will waste that energy. Even more though the amount of computation you can do is based on Landauer's limit which means to flip a single bit you need energy equal to Boltzmann constant times your temperature times ln(2). So any advanced civilization is going to want to be as close to the cosmic background temperature as possible.
  • Meh, the Romulans have been doing this for years; except they use an artificial micro-singularity (and it powers their ships).

  • if the first evidence we have of extraterrestrial intelligence is detecting their Dyson sphere black hole generator.

  • There seems to be this odd misconception that an advanced society will need an absurd amount of energy to function. I can only guess that this has been assumed by looking at our own technology and energy use. However, technology like quantum dot cellular automaton shows that processors do not need a large amounts of energy to function.

    Furthermore, the idea of building megastructures to reside in or upon is foolishness because the optimal megastructure (never fails and requires maintenance free) is natural

    • There seems to be this odd misconception that an advanced society will need an absurd amount of energy to function. I can only guess that this has been assumed by looking at our own technology and energy use.

      Basically - people who like to spend time talking about alien civilizations seem to have no concerns regarding extrapolating from a single data point.

      • Futurists do this a lot and it's rather annoying. People that speak about aliens are just futurists with the exception that they are projecting their view of the future of the human race onto aliens.

    • Furthermore, the idea of building megastructures to reside in or upon is foolishness because the optimal megastructure (never fails and requires maintenance free) is naturally occurring: planets.

      I can't see why any advanced civilisation would want to build artificial living spaces when the optimal living space already exists - caves.

      Yes, sorry, that's a bit facetious, but surely the point of megastructures is that you can build them where you want? You don't need a solid planet around a star (never mind a habitable one) when you can build some kind of orbital or sphere. I'm not an expert, but is a planet easier to make from scratch than say an orbital belt? Also at that stage of a civilisation, wha

      • the point of megastructures is that you can build them where you want

        Any why would you want to be in the middle of nowhere?

        I'm not an expert, but is a planet easier to make from scratch than say an orbital belt?

        Definitely. All you have to do is push a bunch of asteroids close together.

        Also at that stage of a civilisation, what is the population?

        Honestly, probably not as high as you seem to think.

      • by HiThere ( 15173 )

        Still, megastructures are probably a bad idea. I like the idea of macrolife, but anything much larger than a large city is probably a bad idea. You don't want to put all your eggs in one basket.

        I'd prefer a design that can start fairly small, say .5km by .5km by .5km as a rough volume (though not the shape) and grow as desired by adding pieces. Ideally it should also be able (when large enough) to split in half, like an amoeba. Eventually it might evolve into a "multi-cellular" life form, but we aren't

  • Researchers have shown that highly advanced alien civilizations could theoretically build megastructures called Dyson spheres around black holes to harness their energy, which can be 100,000 times that of our Sun.

    I guess they don't think Humans will ever be that highly advanced ... :-)

  • by ukoda ( 537183 ) on Sunday August 22, 2021 @03:08PM (#61718281) Homepage
    Not sure it would ever get built due to the paperwork. Black holes are a natural phenomenon so putting a Dyson sphere around one would impact nature. I would assume we would need to produce an environmental impact report on how such construction would affect the environment and what steps would be taken to mitigate any effects.

    While we are at it is still ok to call them "black holes"? Should we not be calling them "optically challenged spaces"?
    • One of these days I'm going to write an environmental impact statement for a large asteroid, like the one that killed the non-bird dinosaurs.

    • Not to forget checking for any endangered (or otherwise) living things in / around the black hole before you are sure you are not affecting any other lifeforms by building the Dyson Sphere.

  • There are so many other sources of energy that are cheaper and closer to home.

  • It sucks, but frankly, it is becoming more and more plausible that we are the most advanced beings in the universe. Where the fuck are the aliens?

    They haven't built anything, no large-scale structures. I reckon humans 1000 years from now would have structures detectable from Andromeda and we'd be computer-hybrids.

  • Its not clear if we are close to understanding science as it applies to technology. If so, then questions like this one make sense - if there is minimal new science to be discovered, we may be able to imagine, if not build, advanced technology.

    OTOH, we might be like neolithic farmers in 7000BC trying to imagine present day technology 10,000 years in advance - and have essentially none of the scientific knowledge required to imagine that technology.
  • I liken these radiant jets of "energy" to the proverbial dragon's tail. I think there is one called SS-433 that lights up a nebula 10,000 light years away. Maybe the laws of conservation of energy are not altered at all in the black hole ecosphere.
  • ... you have to put the power generators towards the bottom of the gravity well so as to avoid cavitation.
  • A black hole is a lot less interesting than a star of the same mass. The difference is that there is no upper limit to the mass of a black hole. So in very crowded , very active places there is a lot of stuff floating about which the black holes can vacuum up. They can't vacuum up their surroundings when these are empty. This does indeed offer opportunities to harvest energy but
    - when there is so much activity there are many more sources of energy
    - when there is so much activity you'd rather be somewhere el

  • It always amuses me when they 'discover' something like this that 'the math' shows is possible - but only if a fantasy concept is used to empower it.
  • How did that slip through?

    "one somehow capable of surviving temperatures in excess of 3000 kelvin, above the melting point of known metals"

    Melting points of 4 known metals > 3000K:
    Tungston 3683K
    Rhenum 3453K
    Osmium 3318K
    Tantalium 3269K

    K = C + 273.15.

  • Go exercise, don't waste time on such nonsense.

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