A Dyson sphere was a colossal spherical structure constructed around a star, completely surrounding it. The interior of the sphere would absorb the entire energy output of that star, allowing for lifeforms to live on the interior surface almost indefinitely. Such a structure was theorized by 20th century physicist Freeman Dyson in the late 1950s.
For the interior of a Dyson sphere to be habitable to most humanoid lifeforms, the radius of the sphere must be such that habitable temperatures (5 – 30 °C) are maintained. The radius would therefore depend on the size and the energy output of the star around which the sphere would be constructed; if a Dyson sphere were to be constructed around the Earth's sun, the radius would have to be approximately one astronomical unit. At such a radius, the interior surface area would be about 28 ×1016 km2, or 550 million times the entire surface area of the planet Earth. Such a surface area could easily support the lives of many quadrillions (1 ×1015) of beings.
Unsurprisingly, due to the almost immeasurable amounts of effort, resources and time required to construct such an immense structure, only one Dyson sphere has ever been discovered. This particular sphere encased a G-type star and had a diameter of 200 million kilometers, giving it an internal surface area of approximately 250 million M-class planets. As no radiant sunlight or solar wind escaped from the sphere, starships were not able to detect it until they were almost on top of it. As a result, the USS Jenolan crashed onto it in 2294 after being pulled in by the sphere's immense gravity well while en route to the Norpin colony. In 2369, the USS Enterprise-D discovered the Jenolan and investigated the sphere. The sphere was deserted because the star around which it was constructed was highly unstable. (TNG: "Relics")
Technically speaking, the episode showed a Dyson shell rather than a Dyson sphere. A Dyson sphere—sometimes called a Dyson "swarm"—consists of a series of satellites (or statites) orbiting a star which capture a large portion of its energy output and then transmit that energy to another location (e.g., a planet in the star system), or are themselves space habitats.
The Dyson sphere was named after scientist Freeman Dyson, who envisioned a real-world postulate in 1959, although the actual sphere that Dyson theorized was not a solid object like the one visualized in the episode. Dyson himself, who himself never took his idea too seriously, said in a later interview that, while the science behind it was "nonsense", as TV viewer he enjoyed the episode . More specifically, he called his theory a "joke." About "Relics", Dyson said: "Actually it was sort of fun to watch it. It's all nonsense, but it's quite a good piece of cinema."  In the same interview, he said that "Stapledon sphere" would be a more appropriate name, in honor of Olaf Stapledon, whose depiction of such an object in his 1937 novel Star Maker inspired young Dyson to look into the theory.
A Dyson shell would retain all energy produced by the star, and would somehow have to radiate much of this into space to maintain a habitable surface temperature. One possible way of conserving such vast quantities of energy without emitting any visible radiation (as seen on-screen) would be to convert all the energy to mass - essentially using a replicator-like technology to create the many, many, many planets' worth of matter necessary to construct the whole sphere. Another possible way of disposing of such vast quantities of energy without emitting any visible radiation (as seen on-screen) would be to create a colossal gravitational field. If this was the case, it would explain why the Enterprise was jolted suddenly upon leaving warp, and possibly why the Jenolan's distress call went undetected until the Enterprise passed within a very short distance.
Dyson Sphere maquettesEdit
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For the Star Trek episode, both exterior and interior maquettes were built at Gregory Jein, Inc., while the initial full-sized exterior view was executed as a matte painting by Eric Chauvin. (Star Trek: The Next Generation Companion, 3rd ed., p. 220) Episode's visual effects supervisor David Stipes initially wanted to do the exterior approach scene in CGI. He envisioned the Enterprise approaching the sphere from a great distance, and when the sphere grew closer its initial smooth looking surface would resolve into a fantastically detailed network of structures against which the Enterprise would be dwarfed. "It would have been a perfect CGI shot", Stipes enthused, but budgetary considerations made the proposal unfeasible, causing him to sigh at the time, "Contrary to what people are saying about CGI, it's still not as cheap as doing a model" (Cinefantastique, Vol. 24, issue 3/4, p. 80) Stipes later elaborated, "At first we talked about generating it with computers. But we ran into some challenges, so we called in Greg Jein.(...)But Greg's model was huge. But we needed it to be a hundred feet long to give us the required scale. So the crew shot a election of the panel and then digitally reproduced that section over and over, in cookie-cutter fashion, making things look like it stretched on for miles." On constructing the two maquettes, Greg Jein recalled,
"The master pattern is made out of sections of a Japanese model kit. We cast them into a larger pattern and then made a rubber mold. Then we peeled it off and started pouring giant urethane bricks. We put the bricks on wooden frames and put the frames together once we got to the stage.(...)The exterior was pretty straight forward, because all the panels were the same except for the door. We had more fun with the interior, because we made it look like an industrial city block. We put our high school names in some of the buildings, like "Dorsey High School", but the audiences never saw that. We used a lot of pieces out of "central casting"–that's what we call our stock molds that have lots of detail in them–to break up the surface so that each panel wasn't exactly the same. I carved the main core around the door out of foam because we didn't have time to make molds; It's sort of free-form." (Star Trek: The Next Generation 365, p. 275)Penny Juday endeavored to give insight in creating the interior maquette model by trying to explain the technique of "kitbashing" in the TNG Season 2 DVD-special feature, "Inside Starfleet Archives - Penny Juday, Star Trek Coordinator". The art department produced similar structures on several other occasions, combining them on a large board. The out of resin and plywood constructed interior maquette, however, measuring 84 inches square, eventually ended up in the 40 Years of Star Trek: The Collection auction as Lot 690, estimated at US$800-$1,200, selling for US$5,000 ($6,000 including buyer's premium) on 7 October 2006.
In book #5 of the Double Helix series (Double or Nothing) Captains Calhoun and Picard encounter a Dyson sphere constructed by an anti-Federation alliance. Calhoun and Picard eventually succeed in thwarting the alliance and destroying the sphere.
In the Deep Space Nine Millennium book series, Chief O'Brien is briefly trapped in a Pah-wraith Hell where he is forced to wander the interior of a Dyson sphere for several millennia, unable to understand how the sphere was constructed or learn anything about its creation.
In The Starless World, Kirk and crew encounter a Dyson sphere that surrounds and is controlled by a god-like entity. The sphere has been traveling towards the galactic core for several billion years at sub-light speed and intends to enter a black hole as part of an ancient compact.
In season eight of Star Trek Online, players battle the Voth for control of a Dyson sphere in the Delta Quadrant which formerly belonged to the Solanogen-based lifeforms (referred to as the 'Solanae' in the game) seen in the TNG episode "Schisms". The player also learns that the Dyson sphere encountered by the Enterprise-D in "Relics" (referred to as the Jenolan Dyson sphere) has disappeared without a trace, along with the science team analyzing it. It is later found that both spheres generate and utilize Omega particles to power a form of propulsion for each sphere; this form of propulsion caused the Jenolan Sphere to "jump" further into the Delta Quadrant.