Telepipe
Setting certain parameters of matter involves changing the relationships between its constituent elements. These changes are made iteratively until a sufficient state is achieved. The target state is set with a certain, required accuracy, since any material object consists of an infinite number of connections and interactions.
In practice, this looks like setting the vibration parameters of the string fields that make up this or that material object. To set parameters, it is necessary to have a connection element that, when applied to the desired connection, will change its property in a certain way. Such modifier elements are various bosons, arranged in special packages and attached to material objects.
Query-based state calculation, bosonic package synthesis and its applications are produced by special devices that are classified as transmuters. These include material changers and telepipes.
Even simply moving an object with your hand is actually the influence of boson bonds on each other with a transition to the final state. Transmuters just do it more subtly and open up a rich, and no less difficult to calculate, palette of possible changes in states.
Description
Telepipes are devices for establishing communication between different regions of the universe phase space. They operate on areas of the UPS that include the properties: geometry, time, and consistency. The difference between a telepipe is precisely in the selection of changeable material objects (and the vibrations of the strings that compose them). In this case, the objects of change are positions/positions in space-time logic, in contrast to material converters, where the object of change is the material.
Based on functionality, telepipes are divided into two classes:
- Intraverse — capable of connecting space only within one universe
- Interverse — capable of connecting spaces in different universes
As a rule, interworlds, at the design level of a complete controller, are limited by their interworld state. However, such models are quite amenable to modification.
The telepipe only consumes energy when establishing a wormhole. Actually, if you remove the telepipe around it, the portal itself will remain. Exactly as you can change other portals with an installed telepipe (like any other "ordinary" area of space).
Pairing process between Deltadim and Digirel
For us, the most familiar form factor of a telepipe is a pipe, but it is simply the main form factor for moving characters, medium-sized cargo and conducting experiments.
However, there are a great variety of telepipe form factors. For example, there are pool telepipes, whose portal occupies a significant area and looks more like a structural element of a building. Such a portal can be found at the Nadir department at RIUoT (Research Institute of Universes of Texui city), it leads to a clear destination. Above it is located the appropriate laboratory equipment, for example an auto cabinet.
With all its diversity, a telepipe necessarily consists of a controller (responsible for control) and a portal, which determines the shape of the future wormhole.
You can either use a ready-made telepipe and walk between worlds, or assemble your own, modified for specific tasks. Nameless & Co. have developed a set of Special Kits of Portal Components (SKPC), which allow you to assemble a portal mod for specific needs. The SKPC nomenclature includes over 500 standard kits and 2200 parts.
This is how attempts to integrate a telepipe with a fridge
The same superluminal "bubble" spaceships actually create a spherical portal around the vehicle with constantly recalculated parameters for the movement of "pieces" of space relative to each other.
It should be noted that due to the abundance of data being processed, calculating portals for telepipes turns out to be extremely difficult even for quantum computers. Because of this, the time required to complete pairing may be longer than the "movement" time of bubble engines. Also, the use of iterative movement is simpler, although it initially requires more time for calculations, but at the same time it provides greater positioning accuracy and reliability.
Thus, telepipes are very specific devices and are not suitable for all tasks.
Implementations
Telepipes in different universes have their own characteristics. For example, in Digirel it will look like a simply customizable portal with a seamless interface. Mu calmly walks through the worlds via a personal teletype from Nansens...
...True, sometimes she scares random passers-by with this
Telepipes in Floriverse differ from those in Digirel except in size and controls that are convenient for Flories.
How do telepipes compare favorably with natural wormholes? Because wormholes, despite their relative stability, are quite unpredictable, both in properties and behavior. It is more practical to create controlled wormholes using telepipes.
And control of a natural wormhole from the outside will require the construction of a telepipe around it. Also wormholes arise very deep in space, where the influence of forces is minimal. For example, the "bottom" of Void of Nadir, which allows you to leave this verse, and is inalienable from Nadir by virtue of its laws.