FANDOM


A dyson sphere is a concert created by Freemon Dyson,encasing a sun in an artificial shellshells.

Section headingEdit

A Dyson sphere is a hypothetical megastructure that completely encompasses a star and captures a large percentage of its power output. The concept is a thought experiment that attempts to explain how a spacefaring civilization would meet its energy requirements once those requirements exceed what can be generated from the home planet's resources alone. Only a fraction of a star's energy emissions reach the surface of any orbiting planet. Building structures encircling a star would enable a civilization to harvest far more energy.

The first contemporary description of the structure was by Olaf Stapledon in his science fiction novel Star Maker (1937), in which he described "every solar system... surrounded by a gauze of light traps, which focused the escaping solar energy for intelligent use."[1] The concept was later popularized by Freeman Dyson in his 1960 paper "Search for Artificial Stellar Sources of Infrared Radiation".[2] Dyson speculated that such structures would be the logical consequence of the escalating energy needs of a technological civilization and would be a necessity for its long-term survival. He proposed that searching for such structures could lead to the detection of advanced, intelligent extraterrestrial life. Different types of Dyson spheres and their energy-harvesting ability would correspond to levels of technological advancement on the Kardashev scale.

Since then, other variant designs involving building an artificial structure or 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, with many involving habitation or industrial elements. Most fictional depictions describe a solid shell of matter enclosing a star, which is considered[by whom?] the least plausible variant of the idea. In May 2013, at the Starship Century Symposium in San Diego, Dyson repeated his comments that he wished the concept had not been named after him.[3]

Origin of concept Edit

Template:See also

File:Freeman Dyson.jpg

The concept of the Dyson sphere was the result of a thought experiment by physicist and mathematician Freeman Dyson, when he theorized that all technological civilizations constantly increased their demand for energy. He reasoned that if human civilization expanded energy demands long enough, there would come a time when it demanded the total energy output of the Sun. He proposed a system of orbiting structures (which he referred to initially as a shell) 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, on the basis that such a structure could be distinguished by its unusual emission spectrum in comparison to a star. His 1960 paper "Search for Artificial Stellar Sources of Infra-Red Radiation", published in the journal Science, is credited with being the first to formalize the concept of the Dyson sphere.[1]

However, Dyson was not the first to advance this idea. He was inspired by the mention of the concept in the 1937 science fiction novel Star Maker,[2] by Olaf Stapledon, and possibly by the works of J. D. Bernal, Raymond Z. Gallun, and Edgar Rice Burroughs, who seem to have explored similar concepts in their work.[3] Although such megastructures may be theoretically possible, all plans to build a fixed-in-place Dyson sphere are currently far beyond humanity's engineering capacity. The number of craft required to obtain, transmit, and maintain a complete Dyson sphere far exceeds present-day industrial capabilities. George Dvorsky has advocated use of self-replicating robots to overcome this limitation in the relatively near term.[4] Some have suggested that such habitats could be built around white dwarfs[5] and even pulsars.[6]

Variants Edit

In fictional accounts, the Dyson-sphere concept is often interpreted as an artificial hollow sphere of matter around a star. This perception is based on a literal interpretation of Dyson's original short paper introducing the concept. In response to letters prompted by some papers, 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."[7]

Dyson swarm Edit

File:Dyson Ring.PNG
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 regard 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 construction approach has advantages: components could be sized appropriately, and it can be constructed incrementally.[8] Various forms of wireless energy transfer could be used to transfer energy between swarm components and a planet.

Disadvantages resulting from 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.[9] Another potential problem is that the increasing loss of orbital stability when adding more elements increases the probability of orbital perturbations.

As noted below, such a cloud of collectors would alter the light emitted by the star system. However, the disruption compared to a star's overall natural emitted spectrum would most likely be too small for Earth-based astronomers to observe.[1]

Dyson bubble Edit

File:Dyson Bubble.png

A second type of Dyson sphere is the "Dyson bubble". It would be similar to a Dyson swarm, composed of many independent constructs 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. Because the ratio of radiation pressure to the force of gravity from a star is constant regardless of the distance (provided the statite has an unobstructed line-of-sight to the surface of its star[10]), 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 100% reflective statite deployed around the Sun would have an overall density of 0.78 grams per square meter of sail.[11] 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.[12] Another illustration: Regular printing paper has a density of around 80 g/m2.

Such a material has not yet been produced in the form of a working light sail. The lightest carbon-fiber light-sail material currently produced has a density—without payload—of 3 g/m2, or about four times as heavy as would be needed to construct a solar statite.[13]

A single sheet of graphene, the two-dimensional form of carbon, has a density of only 0.37 mg per square meter,[14] making such a single sheet of graphene possibly effective as a solar sail. However, as of 2015 graphene has not been fabricated in large sheets, and it has a relatively high rate of radiation absorption, about 2.3% (i.e., still about 97.7% will be transmitted).[15][16] For frequencies in the upper GHz and lower THz range, the absorption rate is as high as 50–100% due to voltage bias and/or doping.[15][16]

Ultra-light carbon nanotubes meshed through molecular manufacturing techniques have densities between 1.3 g/m2 to 1.4 g/m2. By the time a civilization is ready to use this technology, the carbon nanotube's manufacturing might be optimised enough for them to have a density lower than the necessary 0.7 g/m2, and 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.[17] 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. Although the construction of such a massive habitable statite would be a gigantic undertaking, and the required material science behind it is early stage, there are other engineering feats and required materials proposed in other Dyson sphere variants.

In theory, if enough satellites were created and deployed around their star, they would compose a non-rigid version of the Dyson shell mentioned below. 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).

Dyson shell Edit

File:Dyson Sphere Diagram-en.svg

The variant of the Dyson sphere most often depicted in fiction is the "Dyson shell": a uniform solid shell of matter around the star.[18] 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 that many envision would be used for habitation, if the surface could be made habitable.

A spherical shell Dyson sphere in the 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 unit solid angle, would have a surface area of approximately Template:Convert, or about 550 million times the surface area of Earth. This would intercept the full 384.6 yottawatts (3.846 × 1026 watts)[19] of the Sun's output. Non-shell designs would intercept less, but the shell variant represents the maximum possible energy captured for the Solar System at this point of the Sun's evolution.[18] This is approximately 33 trillion times the power consumption of humanity in 1998, which was 12 terawatts.[20]

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 star (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.[11]

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.[21][22] In such cases, some form of illumination would have to be devised, or the sphere made at least partly transparent, because the star's light would otherwise be completely hidden.[23]

If assuming a radius of one AU, then the compressive strength of the material forming the sphere would have to be immense to prevent implosion due to the star's gravity. 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 because 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.[24] 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.[25] Masses travelling in circular tracks on the inside of the sphere, at velocities significantly greater than orbital velocity, would press outwards on magnetic bearings due to centrifugal force. For a Dyson shell of 1-AU radius around a star with the same mass as the Sun, a mass travelling ten times the orbital velocity (297.9 km/s) would support 99 (a=v2/r) times its own mass in additional shell structure.

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. 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 on average, depending on the density of the material. This includes the hard-to-access cores of the gas giants; the inner planets alone provide only 11.79Template:E kg, enough for a 1-AU shell with a mass of just 42 kg/m2.[12]

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

Other types Edit

Dyson net Edit

Another possibility is the "Dyson net", a web of cables strung about the star that 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.

Bubbleworld Edit

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. The idea was conceived to answer the question, "What is the largest space colony that can be built?"[26] 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.[26] 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, in which Saturn is converted into a human-habitable world.

Stellar engine Edit

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.[27]

A black hole could be the power source instead of a star in order to increase the matter-to-energy conversion efficiency. A black hole would also be smaller than a star. This would decrease communication distances that would be important for computer-based societies as those described above.[26]

Dyson swarm Edit

File:Dyson Ring.PNG
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 regard 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 construction approach has advantages: components could be sized appropriately, and it can be constructed incrementally.[8] Various forms of wireless energy transfer could be used to transfer energy between swarm components and a planet.

Disadvantages resulting from 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.[28] Another potential problem is that the increasing loss of orbital stability when adding more elements increases the probability of orbital perturbations.

As noted below, such a cloud of collectors would alter the light emitted by the star system. However, the disruption compared to a star's overall natural emitted spectrum would most likely be too small for Earth-based astronomers to observe.[1]

Dyson bubble Edit

File:Dyson Bubble.png

A second type of Dyson sphere is the "Dyson bubble". It would be similar to a Dyson swarm, composed of many independent constructs 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. Because the ratio of radiation pressure to the force of gravity from a star is constant regardless of the distance (provided the statite has an unobstructed line-of-sight to the surface of its star[29]), 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 100% reflective statite deployed around the Sun would have an overall density of 0.78 grams per square meter of sail.[11] 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.[12] Another illustration: Regular printing paper has a density of around 80 g/m2.

Such a material has not yet been produced in the form of a working light sail. The lightest carbon-fiber light-sail material currently produced has a density—without payload—of 3 g/m2, or about four times as heavy as would be needed to construct a solar statite.[30]

A single sheet of graphene, the two-dimensional form of carbon, has a density of only 0.37 mg per square meter,[31] making such a single sheet of graphene possibly effective as a solar sail. However, as of 2015 graphene has not been fabricated in large sheets, and it has a relatively high rate of radiation absorption, about 2.3% (i.e., still about 97.7% will be transmitted).[15][16] For frequencies in the upper GHz and lower THz range, the absorption rate is as high as 50–100% due to voltage bias and/or doping.[15][16]

Ultra-light carbon nanotubes meshed through molecular manufacturing techniques have densities between 1.3 g/m2 to 1.4 g/m2. By the time a civilization is ready to use this technology, the carbon nanotube's manufacturing might be optimised enough for them to have a density lower than the necessary 0.7 g/m2, and 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.[32] 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. Although the construction of such a massive habitable statite would be a gigantic undertaking, and the required material science behind it is early stage, there are other engineering feats and required materials proposed in other Dyson sphere variants.

In theory, if enough satellites were created and deployed around their star, they would compose a non-rigid version of the Dyson shell mentioned below. 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).

Dyson shell Edit

File:Dyson Sphere Diagram-en.svg

The variant of the Dyson sphere most often depicted in fiction is the "Dyson shell": a uniform solid shell of matter around the star.[18] 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 that many envision would be used for habitation, if the surface could be made habitable.

A spherical shell Dyson sphere in the 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 unit solid angle, would have a surface area of approximately Template:Convert, or about 550 million times the surface area of Earth. This would intercept the full 384.6 yottawatts (3.846 × 1026 watts)[33] of the Sun's output. Non-shell designs would intercept less, but the shell variant represents the maximum possible energy captured for the Solar System at this point of the Sun's evolution.[18] This is approximately 33 trillion times the power consumption of humanity in 1998, which was 12 terawatts.[34]

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 star (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.[11]

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.[35][36] In such cases, some form of illumination would have to be devised, or the sphere made at least partly transparent, because the star's light would otherwise be completely hidden.[37]

If assuming a radius of one AU, then the compressive strength of the material forming the sphere would have to be immense to prevent implosion due to the star's gravity. 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 because 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.[38] 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.[39] Masses travelling in circular tracks on the inside of the sphere, at velocities significantly greater than orbital velocity, would press outwards on magnetic bearings due to centrifugal force. For a Dyson shell of 1-AU radius around a star with the same mass as the Sun, a mass travelling ten times the orbital velocity (297.9 km/s) would support 99 (a=v2/r) times its own mass in additional shell structure.

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. 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 on average, depending on the density of the material. This includes the hard-to-access cores of the gas giants; the inner planets alone provide only 11.79Template:E kg, enough for a 1-AU shell with a mass of just 42 kg/m2.[12]

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

Other types Edit

Dyson net Edit

Another possibility is the "Dyson net", a web of cables strung about the star that 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.

Bubbleworld Edit

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. The idea was conceived to answer the question, "What is the largest space colony that can be built?"[26] 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.[26] 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, in which Saturn is converted into a human-habitable world.

Stellar engine Edit

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.[40]

A black hole could be the power source instead of a star in order to increase the matter-to-energy conversion efficiency. A black hole would also be smaller than a star. This would decrease communication distances that would be important for computer-based societies as those described above.[26]

Search for megastructures Edit

In Dyson's original paper, he speculated that sufficiently advanced extraterrestrial civilizations would likely follow a similar power-consumption pattern to that of humans, and would eventually build their own sphere of collectors. Constructing such a system would make such a civilization a Type II Kardashev civilization.[41]

The existence of such a system of collectors would alter the light emitted from the star system. Collectors would absorb and reradiate 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. Because 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 compared to what 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 reradiation 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 reradiating 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).[42]Template:Full citation needed[43] Identifying one of the many infrared sources as a Dyson sphere would require improved techniques for discriminating between a Dyson sphere and natural sources.[44] Fermilab discovered 17 potential "ambiguous" candidates, of which four have been named "amusing but still questionable".[45]Template:Full citation needed Other searches also resulted in several candidates, which are, however, unconfirmed.[46][47][48]

Postulated sightingsEdit

On 14 October 2015, the realization of a strange pattern of light from star KIC 8462852, nicknamed "Tabby's Star" after Tabetha S. Boyajian — the lead researcher who discovered the irregular light fluctuation— captured by the Kepler Space Telescope, raised speculation that a Dyson sphere may have been discovered.[49][50] In February 2016, Boyajian gave a TED talk where she explained the story of how her research on the star quickly took a turn into the mysterious. However, she was skeptical and in the talk she reminded everyone that skepticism is the best policy whenever delving into alien territory. Her exact quote is as follows:

Template:Quote

Wanting to understand the strange light pattern, Tabetha S. Boyajian put several hypotheses to the test. The first general assumption was an exoplanet transiting (eclipsing) its massive star, but the dips in light lasted between 5 and 80 days and were erratically spaced apart, thus ruling out any kind of an orbit for one celestial object.[51] A dust cloud was proposed but the star showed no signs of being young so a dust cloud was highly improbable. Lastly, a comet shower was hypothesized. However, as Boyajian pointed out in her TED talk this was also highly improbable. "It would take hundreds of comets to reproduce what we're observing. And these are only the comets that happen to pass between us and the star. And so in reality, we're talking thousands to tens of thousands of comets."[52]

So after all the natural explanations turned up weak, her team decided to send off their research to SETI (Search for extraterrestrial life) to rule out alien structures. After reviewing the research, the SETI Institute was so intrigued that they decided to study the star themselves and pointed their Allen Telescope Array (ATA) at the star "with hopes of catching a tell-tale signal that might reveal a technological civilization."[53]

The SETI Institute mentioned that what caught their interest was that "the timing of the present dip (in light) suggests that whatever this material is, it is situated at just the right distance from the star to be in the habitable zone, where we believe life like ours could develop as it has on Earth."[53]

Being skeptical as Boyajian was, she finally decided to take SETI's approach and allow herself to have a bit of fun in hypothesizing what the light pattern could have been. In her Ted Talk she joked: "Another idea that's one of my personal favorites is that we had just witnessed an interplanetary space battle and the catastrophic destruction of a planet. Now, I admit that this would produce a lot of dust that we don't observe. But if we're already invoking aliens in this explanation, then who is to say they didn't efficiently clean up all this mess for recycling purposes?"[54] The search for answers to KIC 8462852 is still ongoing.

On August 25, 2016, a similar phenomenon was reported for another stellar object: EPIC 204278916,[55] a young M-type pre-main-sequence star with a resolved disk. Dimmings of up to 65% for 25 consecutive days (out of 79 total observation) were observed. The variability is highly periodic and attributed to stellar rotation.[55] The researchers hypothesize that the irregular dimmings are caused by either a warped inner-disk edge or transiting cometary-like objects in either circular or eccentric orbits.[55]

Postulated sightingsEdit

On 14 October 2015, the realization of a strange pattern of light from star KIC 8462852, nicknamed "Tabby's Star" after Tabetha S. Boyajian — the lead researcher who discovered the irregular light fluctuation— captured by the Kepler Space Telescope, raised speculation that a Dyson sphere may have been discovered.[49][50] In February 2016, Boyajian gave a TED talk where she explained the story of how her research on the star quickly took a turn into the mysterious. However, she was skeptical and in the talk she reminded everyone that skepticism is the best policy whenever delving into alien territory. Her exact quote is as follows:

Template:Quote

Wanting to understand the strange light pattern, Tabetha S. Boyajian put several hypotheses to the test. The first general assumption was an exoplanet transiting (eclipsing) its massive star, but the dips in light lasted between 5 and 80 days and were erratically spaced apart, thus ruling out any kind of an orbit for one celestial object.[56] A dust cloud was proposed but the star showed no signs of being young so a dust cloud was highly improbable. Lastly, a comet shower was hypothesized. However, as Boyajian pointed out in her TED talk this was also highly improbable. "It would take hundreds of comets to reproduce what we're observing. And these are only the comets that happen to pass between us and the star. And so in reality, we're talking thousands to tens of thousands of comets."[57]

So after all the natural explanations turned up weak, her team decided to send off their research to SETI (Search for extraterrestrial life) to rule out alien structures. After reviewing the research, the SETI Institute was so intrigued that they decided to study the star themselves and pointed their Allen Telescope Array (ATA) at the star "with hopes of catching a tell-tale signal that might reveal a technological civilization."[53]

The SETI Institute mentioned that what caught their interest was that "the timing of the present dip (in light) suggests that whatever this material is, it is situated at just the right distance from the star to be in the habitable zone, where we believe life like ours could develop as it has on Earth."[53]

Being skeptical as Boyajian was, she finally decided to take SETI's approach and allow herself to have a bit of fun in hypothesizing what the light pattern could have been. In her Ted Talk she joked: "Another idea that's one of my personal favorites is that we had just witnessed an interplanetary space battle and the catastrophic destruction of a planet. Now, I admit that this would produce a lot of dust that we don't observe. But if we're already invoking aliens in this explanation, then who is to say they didn't efficiently clean up all this mess for recycling purposes?"[58] The search for answers to KIC 8462852 is still ongoing.

On August 25, 2016, a similar phenomenon was reported for another stellar object: EPIC 204278916,[55] a young M-type pre-main-sequence star with a resolved disk. Dimmings of up to 65% for 25 consecutive days (out of 79 total observation) were observed. The variability is highly periodic and attributed to stellar rotation.[55] The researchers hypothesize that the irregular dimmings are caused by either a warped inner-disk edge or transiting cometary-like objects in either circular or eccentric orbits.[55]

Fiction Edit

Main article: Dyson spheres in popular culture

As noted above, the Dyson sphere originated in fiction,[59][60] and it is a concept that has appeared often in science fiction since then. In fictional accounts, Dyson spheres are most often depicted as a Dyson shell with the gravitational and engineering difficulties of this variant noted above largely ignored.[18]

Section headingEdit

Write the second sectioTemplate:Multiple issues
File:STS-134 International Space Station after undocking.jpg
 Astroengineering is the application of scientific, economic, social, and practical knowledge in order to design, build, and maintain structures, machines, devices, systems, materials and processes in outer space. It is a form of megascale engineering. Typically, proposed feats of astroengineering are on the scale to remake an entire stellar system. Examples of astroengineering are most commonly found in science fiction literature. In current time, astroengineering is still just an idea. As progression occurs however, feats may become more attainable. ==Applications== Typical megastructures that would be produced by astroengineering are hypothesized to be Dyson spheres, ringworlds, Alderson disks, Banks' Orbitals, Matrioshka brains, stellar engines such as Shkadov thrusters, and other artifacts produced by Type II and Type III civilizations on the Kardashev scale. In a 2005 paper, Luc Arnold proposed a means of detecting smaller, though still megascale, artifacts from their distinctive light curve signature.[61] Some applications are becoming more relevant to our time period as advances in technology progress. The most basic astroengineering projects, like orbital towers (or orbital elevators) are becoming more likely due to such technological advances.[62] ==Limiting factors== Resources is the one of the limiting factors preventing advances in astroengineering. Since astroengineering revolves are creating megastructures that could be millions of kilometers long, obtaining materials would require more than Earth's resources. Even if resources become more abundant from other planets and planetary systems, energy limits what engineers would be able to accomplish. Creating large-scale structures requires large amounts of energy. Potential energy sources which would be used by a Type II or Type III civilization on the Kardashev scale include: * A Dyson sphere or Dyson swarm and similar constructs are hypothetical megastructures originally described by Freeman Dyson as a system of orbiting solar power satellites meant to enclose a star completely and capture most or all of its energy output.[63]* Perhaps a more exotic means to generate usable energy would be to feed a stellar mass into a black hole, and collect photons emitted by the accretion disc.[64][65] Less exotic would be simply to capture photons already escaping from the accretion disc, reducing a black hole's angular momentum; known as the Penrose process.* Star lifting is a process where an advanced civilization could remove a substantial portion of a star's matter in a controlled manner for other uses.* Antimatter is likely to be produced as an industrial byproduct of a number of megascale engineering processes (such as the aforementioned star lifting) and therefore could be recycled.* In multiple-star systems of a sufficiently large number of stars, absorbing a small but significant fraction of the output of each individual star.* White holes, if they exist, theoretically could provide large amounts of energy from collecting the matter propelling outwards.* Capturing the energy of gamma-ray bursts is another theoretically possible power source for a highly advanced civilization.* Type III civilizations might use the same techniques employed by a Type II civilization, but applied to all possible stars of one or more galaxies individually.[66]* They may also be able to tap into the energy released from the supermassive black holes which are believed to exist at the center of most galaxies.* The emissions from quasars can be readily compared to those of small active galaxies and could provide a massive power source if collectable. Another possibility is known as the Tiplerian Scenario, which would include sending Von Neumann probes with human-level artificial intelligence to distant planets and recreating themselves could lead to the possibility of achieving these engineering feats.[67] ==In fiction== Astroengineering has been described in many works of fiction including: * In the Ringworld series by Larry Niven, a ring a million miles wide is built and spun (for gravity) around a star roughly one astronomical unit away.  The ring can be viewed as a functional version of a Dyson sphere with the interior surface area of 3 million Earth-sized planets.  Because it is only a partial Dyson sphere, it can be viewed as an intermediary between Type I and Type II.  Both Dyson spheres and the Ringworld suffer from gravitational instability, however—a major focus of the Ringworld series is coping with this instability in the face of partial collapse of the Ringworld civilization.* Stephen Baxter's "Morlock" of The Time Ships occupy a spherical shell around the sun the diameter of earth's orbit, spinning for gravity along one band. The shell's inner surface along this band is inhabited by cultures in many lower stages of development, while the K II Morlock civilization uses the entire structure for power and computation.Template:Citation needed* In the Star Trek: The Next Generation episode "Relics", the Enterprise discovers an abandoned Dyson sphere.[68]* In the Halo universe, The Forerunners created many planet-sized artificial megastructures, such as the Halo ringworlds, the 2 Arks and the Shield Worlds, which were micro - Dyson Spheres. One of the Precursor's most well known creations were the Star Roads. Immense, indestructible cables that connected planets and star systems. ==Gallery==  ==See also==*Planetary engineering*Stellar engineering*Terraforming  ==References==
  1. ==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 |
  2. ==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 |
  3. ==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 |
  4. Template:Cite arxiv
  5. Template:Cite journal
  6. Template:Cite journal
  7. 8.0 8.1 ==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 |
  8. ==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 |
  9. ==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 |
  10. 11.0 11.1 11.2 11.3 ==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 |
  11. 12.0 12.1 12.2 12.3 ==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 |
  12. ==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 |
  13. Template:Citation
  14. 15.0 15.1 15.2 15.3 ==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 |
  15. 16.0 16.1 16.2 16.3 Template:Cite arxiv
  16. ==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 |
  17. 18.0 18.1 18.2 18.3 18.4 ==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. ==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 |
  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==
    • 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 |
  21. ==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 |
  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. ==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 |
  24. Search WaybackMachine for the 14th of June 2011 copy of {{cite web |url=http://www.paulbirch.net/SupramundanePlanets.zip |title=Archived copy |accessdate=2006-03-02 |deadurl=yes |archiveurl=https://web.archive.org/web/20060627074700/http://www.paulbirch.net/SupramundanePlanets.zip |archivedate=2006-06-27 |df= }}
  25. 26.0 26.1 26.2 26.3 26.4 26.5 ==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 |
  26. ==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 |
  27. ==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 |
  28. ==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 |
  29. ==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 |
  30. Template:Citation
  31. ==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 |
  32. ==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 |
  33. ==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 |
  34. ==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 |
  35. ==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 |
  36. ==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 |
  37. ==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 |
  38. Search WaybackMachine for the 14th of June 2011 copy of {{cite web |url=http://www.paulbirch.net/SupramundanePlanets.zip |title=Archived copy |accessdate=2006-03-02 |deadurl=yes |archiveurl=https://web.archive.org/web/20060627074700/http://www.paulbirch.net/SupramundanePlanets.zip |archivedate=2006-06-27 |df= }}
  39. ==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 |
  40. 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.
  41. ==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 |
  42. Template:Cite journal
  43. ==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 |
  44. ==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 |
  45. ==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 |
  46. ==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 |
  47. ==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 |
  48. 49.0 49.1 ==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 |
  49. 50.0 50.1 ==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 |
  50. Template:Cite journal
  51. ==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 |
  52. 53.0 53.1 53.2 53.3 ==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 |
  53. ==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 |
  54. 55.0 55.1 55.2 55.3 55.4 55.5 Template:Cite journal
  55. Template:Cite journal
  56. ==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 |
  57. ==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 |
  58. Olaf Stapledon. Star Maker
  59. J. D. Bernal, The World, the Flesh & the Devil: An Enquiry into the Future of the Three Enemies of the Rational Soul
  60. Template:Cite journal Template:Open access
  61. Template:Cite journal
  62. Template:Cite news
  63. ==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 |
  64. ==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 |
  65. 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.
  66. ==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 |
  67. ==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 |

==Further reading==* Template:Cite journal*" Astronomical Engineering Revisited: Planetary Orbit Modification Using Solar Radiation Pressure",  Astrophysics and Space Science, Volume 282, Number 4, 765-772, Template:Doi Template:Science fiction   n of your page here.

Community content is available under CC-BY-SA unless otherwise noted.