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File:Dyson Sphere Diagram-en.svg

A cut-away diagram of an idealized Dyson shell, a variant on Dyson's original concept, with a radius of 1 AU.

Dyson-sphere artr fantasy

A dyson sphere would contain civilization of on a hundred systems. Half a Dyson sphere at earth orbit would be equivilent surface area to several million Earths. Even if there are only a small fraction of livable space, a great deal of energy collection, and other underdeveloped area, there would be several lifetimes of explorable territory.Then there are the energy collectors that are powering something-city power generators,defensive systems,gravity generators. Factories are still running.

Most of that area is going to be energy collectors. The real purpose of a Dyson sphere is harness all the power output of a sun. With that much energy, you can do... almost anything... (like build a material strong enough to be the chassis of a Dyson sphere).

There will probably be a ring of either massive forcefield or large materials at some venus like orbit that will generate a night and day effect on the ring. Those big materials will be energy absorbing as well. Otherwise you have eternal noon. (though this would have to be assembled early on, probably to generate the power to build the rest.)

Now the question is.. what were the builders doing with it all?Sidaireans use it to power the Sphere itself,the world plates and cities within them.Every worldplate,would it's closed environment,with subterrain shuttles between each,that move inhabitants around the worldplates and the sphere itself.Later,on specific points,there could instalted stargate side to site jump points,for both individuals and shuttles to jump from area to another. External,weapon towers and tractor beam arrays could deflect asteroids coming too close to the sphere.In the event,these systems fail,any minor damage would repaired by way of nanobots or sentry robots.But major damage,say caused by a large enough asteroid or other massive object,might damage the outer hull,breaking a hole in it.Damage,that simply knocks a worldplate out of allihement,might create severe earthquakes and shake the civilization off it's axis.

However, your broken sphere, will not have atmosphere.Atmosphere plants could provide new oxigen depleted by the dsamage. Though there will be a gas farm, which would be a big gas giant made of nitrogen, oxygen, hydrogen, and a few other things that an atmosphere and ecosystem might need in a rough orbit. (Carbon core).

Lots and lots of weapons pits which are tenders for the microbot clouds (not quite nanobots.. but a dual defensive system and repair mechanism might provide help in energency situations

There is a receiving generator taking a good portion of the power being absorbed by the sphere and mashing it into matter. (Your star probably is generating pulses of high energy x-rays, alpha and gamma rays, and the occasional neutrino burst, as the matter forge is making the material for the sphere. Template:Wiktionary

A Dyson sphere (or shell as it appeared in the original paper) is a hypothetical megastructure originally described by Freeman Dyson. Such a "sphere" would be a system of orbiting solar power satellites meant to completely encompass a star and capture most or all of its energy output. Dyson speculated that such structures would be the logical consequence of the long-term survival and escalating energy needs of a technological civilization, and proposed that searching for evidence of the existence of such structures might lead to the detection of advanced intelligent extraterrestrial life.

600px-Dyson Sphere Diagram-en

The Sphere,as the builders and inhabitants,would call it would as a 101, there is a lot that can be in a 4pi R squared, where R is going to be roughly an AU (149,598,000 KMs or 92,955,877 miles) 2,250,000,000,000,000 square miles. with the earth's surface being a mere 196,940,400 square miles.

Figure the thickness of the sphere wall will be about 10,000 kilometers 6800 miles thick (unless it is made of a super dense material or gravity generators are used) to generate the 1 G on the isnide). The inside has a 10-11 miles/15-22 kms worth of air.

Since then, other variant designs involving building an artificial structure — or a series of structures — to encompass a star have been proposed in exploratory engineering or described in science fiction under the name "Dyson sphere". These later proposals have not been limited to solar power stations — many involve habitation or industrial elements. Most fictional depictions describe a solid shell of matter enclosing a star (see diagram at right), which is considered the least plausible variant of the idea (see below).

EscherDysonSphere
Dyson Sphere;Asguard-Prime

Dyson Sphere

Origin of concept[]

Template:Seealso The concept of the Dyson sphere was the result of a thought experiment by physicist and mathematician Freeman Dyson, where he noted that every human technological civilization has constantly increased its demand for energy. He reasoned that if human civilization were to survive long enough, there would come a time when it required the total energy output of the sun. Thus, he proposed a system of orbiting structures designed to intercept and collect all energy produced by the sun. Dyson's proposal did not detail how such a system would be constructed, but focused only on issues of energy collection. Dyson is credited with being the first to formalize the concept of the Dyson sphere in his 1959 paper "Search for Artificial Stellar Sources of Infra-Red Radiation", published in the journal Science.[1] However, Dyson was inspired by the mention of the concept in the 1937 science fiction novel Star Maker, by Olaf Stapledon, and possibly by the works of J. D. Bernal and Raymond Z. Gallun who seem to have explored similar concepts in their work.[2]

Feasibility[]

While it is believed that some of the design variants commonly described – specifically those based on the Dyson shell – are impractical, if not physically impossible, design variants of the sphere based on orbiting satellites or solar sails do not require any major theoretical breakthroughs in our basic scientific understanding for their construction. Deployment of spacecraft and satellites using photovoltaics might be seen as the first small steps towards building a Dyson swarm (see below for differences between these sub-types).[3] However, creating and deploying energy gathering spacecraft and satellites in the numbers needed to create a solar system sized integrated energy gathering system are well beyond our present-day industrial needs or capabilities. It is also likely that there are unforeseen industrial scaling difficulties in such a construction project, and that our current understanding of industrial automation is insufficient to build the self-maintaining systems needed for the sphere's upkeep.

Planet designs 4aa528c1745c3
Dyson Swarm

Variants[]

In many fictional accounts, the Dyson sphere concept is most often interpreted as an artificial hollow sphere of matter around a star (see diagram at top of page). This perception is a misinterpretation of Dyson's original concept. In response to letters prompted by his original paper, Dyson replied, "A solid shell or ring surrounding a star is mechanically impossible. The form of 'biosphere' which I envisaged consists of a loose collection or swarm of objects traveling on independent orbits around the star."[4]

Dyson swarm[]

File:Dyson Ring.PNG

A Dyson Ring — the simplest form of the Dyson Swarm — to scale. Orbit is 1 AU in radius, collectors are 1.0Template:E km in diameter (~25× the Earth–Moon distance), spaced 3 degrees from center to center around the orbital circle.

Dyson Swarm

A relatively simple arrangement of multiple Dyson Rings of the type pictured above, to form a more complex Dyson Swarm. Rings' orbital radii are spaced 1.5Template:E km with regards to one another, but average orbital radius is still 1 AU. Rings are rotated 15 degrees relative to one another, around a common axis of rotation.

The variant closest to Dyson's original conception is the "Dyson swarm". It consists of a large number of independent constructs (usually solar power satellites and space habitats) orbiting in a dense formation around the star. This approach to the construction of a Dyson sphere has several advantages: the components making it up could range widely in individual size and design, and such a sphere could be constructed incrementally over a long period of time.[3] Various forms of wireless energy transfer could be used in order to transfer energy between constructs.

Such a swarm is not without drawbacks. The nature of orbital mechanics would make the arrangement of the orbits of the swarm extremely complex. The simplest such arrangement is the Dyson ring in which all such structures share the same orbit. More complex patterns with more rings would intercept more of the star's output, but would result in some constructs eclipsing others periodically when their orbits overlap.[5] Another potential problem is the increasing loss of orbital stability as adding more orbiting constructs increases the probability of orbital perturbations of other constructs.

As noted below, such a cloud of collectors would alter the light emitted by the star system, but as can be seen here, it is unlikely that such an alteration would be complete, and some of the star's natural light would still be present in the system's emitted spectrum.[1]

Dyson shell[]

The variant of the Dyson sphere most often depicted in fiction is the "Dyson shell": a uniform solid shell of matter around the star (see diagram at top of page).[6] Unlike the Dyson swarm, such a structure would completely alter the emissions of the central star, and would intercept 100% of the star's energy output. Such a structure would also provide an immense surface which many envision being used for habitation, if the surface could be made habitable.

A spherical shell Dyson sphere in our solar system with a radius of one astronomical unit, so that the interior surface would receive the same amount of sunlight as Earth does per solid angle, would have a surface area of at least 2.72x1017 km2, or around 550 million times the surface area of the Earth. This would intercept the full 4x1026 watts of the Sun's output; other variant designs would intercept less, but the shell variant represents the maximum possible energy captured for our solar system at this point of the Sun's evolution.[6] To put this figure in perspective, it is approximately 3.3x1013 times the power consumption of humanity in 1998 which was 1.2x1013 W.[7]

There are several serious theoretical difficulties with the solid shell variant of the Dyson sphere:

Such a shell would have no net gravitational interaction with its englobed sun (see Shell theorem), and could drift in relation to the central star. If such movements went uncorrected, they could eventually result in a collision between the sphere and the star — most likely with disastrous results. Such structures would need either some form of propulsion to counteract any drift, or some way to repel the surface of the sphere away from the star.[8]

For the same reason, such a shell would have no net gravitational interaction with anything else inside it. The contents of any biosphere placed on the inner surface of a Dyson shell would not be attracted to the sphere's surface and would simply fall into the star. It has been proposed that a biosphere could be contained between two concentric spheres, placed on the interior of a rotating sphere (in which case, the force of artificial "gravity" is perpendicular to the axis of rotation, causing all matter placed on the interior of the sphere to pool around the equator, effectively rendering the sphere a Niven ring for purposes of habitation, but still fully effective as a radiant energy collector) or placed on the outside of the sphere where it would be held in place by the star's gravity.[9][10] In such cases, some form of illumination would have to be devised, or the sphere made at least partly transparent, as the star's light would otherwise be completely hidden.[11]

If assuming a radius of one AU, then the compressive strength of the material forming the sphere would have to be immense. Any arbitrarily selected point on the surface of the sphere can be viewed as being under the pressure of the base of a dome 1 AU in height under the Sun's gravity at that distance. Indeed it can be viewed as being at the base of an infinite number of arbitrarily selected domes, but as much of the force from any one arbitrary dome is counteracted by those of another, the net force on that point is immense, but finite. No known or theorized material is strong enough to withstand this pressure, and form a rigid, static sphere around a star.[12] It has been proposed by Paul Birch (in relation to smaller "Supra-Jupiter" constructions around a large planet rather than a star) that it may be possible to support a Dyson shell by dynamic means similar to those used in a space fountain.[13] Masses traveling in circular tracks on the inside of the sphere, at velocities significantly greater than orbital velocity, would press outwards due to centrifugal force. For a Dyson shell of 1 AU radius around a star with the same mass as the Sun, mass traveling ten times orbital velocity (297.9 km/s) would support 99 (a=v2/r) times its own mass in additional shell structure. The arrangement of such tracks suffers from the same difficulties as arranging the orbits of a Dyson swarm, and it is unclear how much energy would be consumed ensuring the velocity of the masses was maintained.

Also if assuming a radius of one AU, then there may not be sufficient building material in the Solar system to construct a Dyson shell. Dyson's original estimate was that there was enough material in the Solar system for a 1 AU shell 3 meters thick,Template:Fact but this included hydrogen and helium which are unlikely to be much use as building material, although additional building material might be manufactured if elements such as hydrogen and helium could be transmuted into heavier elements through nuclear fusion. Anders Sandberg estimates that there is 1.82Template:E kg of easily usable building material in the Solar system, enough for a 1 AU shell with a mass of 600 kg/m²—about 8–20 cm thick depending on the density of the material. This includes the cores of the gas giants, which may be hard to access; the inner planets alone provide only 11.79Template:E kg, enough for a 1 AU shell with a mass of just 42 kg/m².[14]

The shell would be vulnerable to impacts from interstellar bodies, such as comets, meteoroids, and so forth.

Lastly, the shell would be vulnerable to the material in interstellar space that is currently being deflected by the Sun's Bow shock. The Heliosphere, and any protection it theoretically provides, would cease to exist.

Dyson bubble[]

File:Dyson Bubble.png

A Dyson Bubble: an arrangement of statites around a star, in a non-orbital pattern. Note: so long as a statite has an unobstructed line-of-sight to its star, it can hover at any point in space near its star. This relatively simple arrangement is only one of an infinite number of possible statite configurations, and is meant as a contrast for a Dyson Swarm only. Statites are pictured as the same size as the collectors pictured above, and arranged at a uniform 1 AU distance from the star.

Volvox
800px-Dyson Ring

A third type of Dyson sphere is the "Dyson bubble". It would be similar to a Dyson swarm, composed of many independent constructs (usually solar power satellites and space habitats) and likewise could be constructed incrementally.

Unlike the Dyson swarm, the constructs making it up are not in orbit around the star, but would be statites—satellites suspended by use of enormous light sails using radiation pressure to counteract the star's pull of gravity. Such constructs would not be in danger of collision or of eclipsing one another; they would be totally stationary with regard to the star, and independent of one another. As the ratio of radiation pressure and the force of gravity from a star are constant regardless of the distance (provided the statite has an unobstructed line-of-sight to the surface of its star[15]), such statites could also vary their distance from their central star.

The practicality of this approach is questionable with modern material science, but cannot yet be ruled out. A statite deployed around our own sun would have to have an overall density of 0.78 grams per square meter of sail.[8] To illustrate the low mass of the required materials, consider that the total mass of a bubble of such material 1 AU in radius would be about 2.17Template:E kg, which is about the same mass as the asteroid Pallas.[14]

Such a material is currently beyond our ability to produce; the lightest carbon-fiber light sail material currently produced has a density – without payload – of 3 g/m², or about four times heavier than would be needed to construct a solar statite.[16]

However, there has been some speculation about the creation of ultra light carbon nanotube meshes through molecular manufacturing techniques whose density would be below 0.1 g/m².[17] If production of such materials on an industrial scale is feasible, and such materials could be used in light sails, the average sail density with rigging might be kept to 0.3 g/m² (a "spin stabilized" light sail requires minimal additional mass in rigging). If such a sail could be constructed at this areal density, a space habitat the size of the L5 Society's proposed O'Neill cylinder – 500 km², with room for over 1 million inhabitants, massing 3Template:E tons – could be supported by a circular light sail 3,000 km in diameter, with a combined sail/habitat mass of 5.4Template:E kg.[18] For comparison, this is just slightly smaller than the diameter of Jupiter's moon Europa (although the sail is a flat disc, not a sphere), or the distance between San Francisco and Kansas City. Such a structure would, however, have a mass quite a lot less than many asteroids. While the construction of such a massive inhabitable statite would be a gigantic undertaking, and the required material science behind it is as yet uncertain, its technical challenges are slight compared to other engineering feats and required materials proposed in other Dyson sphere variants.

In theory, if enough statites were created and deployed around their star, they would compose a non-rigid version of the Dyson shell. Such a shell would not suffer from the drawbacks of massive compressive pressure, nor are the mass requirements of such a shell as high as the rigid form. Such a shell would, however, have the same optical and thermal properties as the rigid form, and would be detected by searchers in a similar fashion (see below).

Other types[]

Another possibility is the "Dyson net", a web of cables strung about the star which could have power or heat collection units strung between the cables. The Dyson net reduces to a special case of Dyson shell or bubble, however, depending on how the cables are supported against the sun's gravity.

The Ringworld, or Niven ring, could be considered a particular kind of Dyson sphere. Larry Niven, who first developed the concept, described it as "an intermediate step between Dyson Spheres and planets".[19] The ringworld could perhaps be described as a slice of a Dyson Sphere (taken through its equator), spun for artificial gravity, and used mainly for habitation as opposed to energy collection. Like the Dyson Shell, the Niven ring is inherently unstable without active measures keeping it in position with regards to its central star – a fact recognized by Larry Niven and addressed in the sequels to his novel on the concept, Ringworld.[20]

A bubbleworld is an artificial construct that consists of a shell of living space around a sphere of hydrogen gas. The shell contains air, people, houses, furniture, etc. It was invented to answer the question "what is the largest space colony that can be built".[21] However, most of the volume is not habitable and there is no power source.

Theoretically, any gas giant could be enclosed in a solid shell; at a certain radius the surface gravity would be terrestrial, and energy could be provided by tapping the thermal energy of the planet.[21] This concept is explored peripherally in the novel Accelerando (and the short story Curator which is incorporated into the novel as a chapter) by Charles Stross when Saturn is converted into a human habitable world.

Stellar engines are a class of hypothetical megastructures, whose purpose is to extract useful energy from a star, sometimes for specific purposes. For example, Matrioshka brains extract energy for purposes of computation; Shkadov thrusters extract energy for purposes of propulsion. Some of the proposed stellar engine designs are based on the Dyson sphere.[22]

A black hole could be the power source instead of a star in order to increase energy to matter conversion efficiency. A black hole would also be smaller than a star. This would decrease communication distances which would be important for computer based societies as those described above.[21]

== Search for extra-terrestrial intelligence ==

Forbid2

In Dyson's original paper, he speculated that sufficiently advanced extraterrestrial civilizations would likely follow a similar power consumption pattern as humans, and would eventually build their own sphere of collectors. Constructing such a system would make such a civilization a Type II Kardashev civilization.[23]

The existence of such a system of collectors would alter the light emitted from the star system. Collectors would absorb and re-radiate energy from the star.[1] The wavelength(s) of radiation emitted by the collectors would be determined by the emission spectra of the substances making them up, and the temperature of the collectors. Since it seems most likely that these collectors would be made up of heavy elements not normally found in the emission spectra of their central star – or at least not radiating light at such relatively "low" energies as compared to that which they would be emitting as energetic free nuclei in the stellar atmosphere – there would be atypical wavelengths of light for the star's spectral type in the light spectrum emitted by the star system. If the percentage of the star's output thus filtered or transformed by this absorption and re-radiation was significant, it could be detected at interstellar distances.[1]

Given the amount of energy available per square meter at a distance of 1 AU from the Sun, it is possible to calculate that most known substances would be re-radiating energy in the infrared part of the electromagnetic spectrum. Thus, a Dyson Sphere, constructed by life forms not dissimilar to humans, who dwelled in proximity to a Sun-like star, made with materials similar to those available to humans, would most likely cause an increase in the amount of infrared radiation in the star system's emitted spectrum. Hence, Dyson selected the title "Search for Artificial Stellar Sources of Infrared Radiation" for his published paper.[1]

SETI has adopted these assumptions in their search, looking for such "infrared heavy" spectra from solar analogs. Template:As of Fermilab has an ongoing survey for such spectra by analyzing data from the Infrared Astronomical Satellite (IRAS).[24][25]

Fiction[]

Main article: Dyson spheres in fiction

As noted above, the Dyson sphere originated in fiction,[26][27] and it is a concept that has appeared often in science fiction since then (see Dyson spheres in fiction for listed examples). In fictional accounts, Dyson spheres are most often depicted as a Dyson shell with the gravitational and engineering difficulties noted above with this variant, largely ignored.[6]


Jack Kirby's Dyson Sphere.[]

Wnatever you do,you draw this kind of thing.I've watched the so called King of Comics clutter up a comic page,with silly crap,that breaks the well known illustrator triangle,that helps you focus on one object or go toward whatever object,you wish the veiwer to look at.As a profession comic artist,Kirby often lost focus of big splash pages and his imatators Walt Simonson,John Byrne and others just imatated things similar.

Jack Kirby's Dyson sphere stage 1

See also[]

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References[]

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  16. ==Further reading==
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    • Template loop detected: Template:Cite book
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    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
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    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  17. ==Further reading==
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  18. ==Further reading==
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  19. Larry Niven. "Bigger than Worlds", Analog, March 1974.
  20. ==Further reading==
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
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    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  21. 21.0 21.1 21.2 ==Further reading==
    • ==Further reading==
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    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
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    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  22. ==Further reading==
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  23. Kardashev, Nikolai. "On the Inevitability and the Possible Structures of Supercivilizations", The search for extraterrestrial life: Recent developments; Proceedings of the Symposium, Boston, MA, June 18–21, 1984 (A86-38126 17-88). Dordrecht, D. Reidel Publishing Co., 1985, p. 497–504.
  24. ==Further reading==
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • ==Further reading==
    • Template loop detected: Template:Cite book
    • Template loop detected: Template:Cite book
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
    • {{cite book | first=Robert | last=Heinlein | authorlink= | date=1980 | title=Expanded Universe | edition= | publisher=Ace Books | location=New York |
  25. http://archive.seti.org/pdfs/Shostak-spring2009-EnS.pdf
  26. Olaf Stapledon. Star Maker
  27. J. D. Bernal, "The World, the Flesh, and the Devil"

External links[]

Template:Memoryalpha


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