Interstellar Travel

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"Русский"
GoogleTranslate.jpg The following text was google-translated from Russian with minimal edits. It might appear badly written, hard to follow, or can have translation errors. This is a temporary solution, proper translation should replace that, eventually. If you'd like to help me with that, please check this article for details.

Interstellar travel would be impossible without superluminal motion technologies. In the Alliance at the moment there are several theoretical ways to exceed the speed of light, but only one of them is accessible - the hypergenerator on the hephrene gas.

The dimensions of the device vary, as well as its appearance, but one design feature remains unchanged - the generator must contain an annular circuit with gear, providing the necessary conditions for creating spatial distortion. The technical characteristics of the generator depend on the number and size of the circuits. The standard basic generator has three contours two meters long that allows to make travel for 24 light years.

The hypergenerator is capable of creating distortions of space, connecting two points of the three-dimensional world with a short road - a wormhole. The wormhole originally created has a microscopic diameter of approximately 10^-18 meters, the hypergenerator is pushing it to the required size, allowing the ship to pass through it. The wormhole has a non-zero length, depending on the distance between the exit points. The diameter of the wormhole is also very different depending on the position of the ship in it, somewhat resembling the analogy with a ball pushed through the elastic gut: far from the ship, the size of the wormhole is reduced to the original "natural" 10^-18 meters. Therefore, despite the fact that the wormhole exists all the time while the hypergenerator is working, it cannot be detected if the ship is far from one of its exits. Theoretically, a specially tuned hypergenerator can pick up an existing wormhole and re-expand it, but in practice it should be at a distance of no more than 10 meters from it, which is practically impossible on a cosmic scale. Since the wormhole exists only while the hypergenerator is running, a breakdown or premature shutdown of the device leads to the collapse of the wormhole. What exactly happens to a spacecraft that is currently in transit through the wormhole is not known for certain, but almost certainly it ceases to exist as ordinary matter, turning into a microscopic universe filled with quark-gluon plasma, lost somewhere outside the known three-dimensional space. The ship cannot receive any signals while in the wormhole, and in the same way it cannot be detected until it reaches the exit from the wormhole.

The physical laws that allow the formation of wormholes are currently not studied, despite the fact that the externally definable properties of the wormhole are completely measurable. In particular, the wormholes are sensitive to gravitational disturbances - the opening of a stable wormhole is possible only at a certain distance from the planets, depending on the depth of their gravity well. Another important factor in wormhole stability is the relative speed with regards to nearby massive objects. If the speed exceeds a certain limit, the wormhole also refuses to form, even if it is at a safe distance from the object.

When creating a wormhole, hypergenerators take a decent amount of computing power from the ship's computer centers, and much of the most important calculations consist in accurately determining the coordinates, speed, and trajectory of the wormhole output relative to its input. However, most calculations are probabilistic in nature, due to the fact that information about the exit point is always outdated, due to the speed limit of light.

This, together with the build quality of the hypergenerator itself, determines the final accuracy - while the old unsynchronized hypergenerator can produce a random exit point in a sphere with a radius of up to 1.5 a.e, even the highest quality and most accurate hypergenerator installations gave a record accuracy with an error of 5000 kilometers Since the wormhole, apparently, has the smallest possible length, as well as the fact that the hypergenerator consumes significant amounts of energy during operation, makes the hypergenerator effective only at distances exceeding 1 light day.

Hypergenerators are capable of working in conjunction with a master/slave, which makes it possible to coordinate jumps for groups of ships. In this case, the destination of the jump and the main wormhole are set by the master hypergenerator, and the subordinate hypergenerators expand the wormhole to the required size to pass the entire group of ships. However, this technique is limited by the fact that ships must be grouped extremely tightly, and because of this, the upper bar of the group usually cannot exceed more than 10 ships. Particularly large ships, such as the Dawn mobile base, can subdue more hypergenerators, up to a hundred, due to the fact that the generated main wormhole itself expands significantly more.

The hypergenerator is currently a black box as a technology. Despite the fact that its design can be replicated, and improvements are possible affecting the characteristics of the generator, the basic principles of its operation remain a complete mystery. All hypergenerators used by all currently known civilizations, with the possible exception of Sm'tar, are copies of the found artifacts of the Ancients. Given that most of the artifacts of the Ancients themselves are extremely poorly exposed to study and reverse engineering (And more often they remain a complete mystery, despite all the efforts to study), it seems that the original artifacts-hypergenerators were “intentionally” created in the form allowing "younger civilizations" to copy them when they are found. Reasons are unknown.