Spacetime disruption is a phenomenon related to the use of the wormhole drive.
As shown in Chapter 3, spacetime is an emergent property that comes from the quantum entanglement of particles. But the transport of an object through a wormhole uses up this particle entanglement. In this sense, it is much more like the teleportation of particles in which the particles must be entangled.
The entanglement required to teleport/transport is “borrowed” from spacetime. When enough particles are transported, the entanglement of spacetime can be weakened to the point that spacetime itself “atomizes” or breaks up. If we imagine the atomizing of spacetime to be similar to water turning into steam, we see that a phase change has occurred. This can destroy an organized mass such as a space habitat or human body.
Returning to the steam analogy.
To turn steam into water, you allow it to cool. To allow spacetime to self-heal, you restore particle entanglement. To drive the phase change faster with water, you could use a condenser with a sufficiently cold reservoir. Similarly, to prevent a teleported/transported object from “heating” up spacetime, a “reservoir” of entangled particles can be provided with the object. A quantum computer becomes the “condenser” and generates this reservoir of entanglement sufficient to offset the mass of the transported object.
If the quantum computer is carried along with the object, it also shortcuts the quantum requirement that the information for the entangled states be carried by a classical channel between the wormhole mouths, such as a radio channel. The information is in effect carried with the teleported/transported object . . .
Source:
Wormhole Physics 101 by Dr. Elias Mach - Copyright 2548 C.E.- Chapter 7, Page 223 - Entanglement Reservoir
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