Other researchers have suggested that a powerful field source can disturb the space around it, but reversibly and temporarily in most cases, except for some extreme power limit beyond which the disturbance becomes a long lasting instability that propagates to distant places causing reduction of the quantum state along a stress energy wave front. Quantum state in this representation is thought to be spin angular momentum of ZPE or virtual particle pairs.
Generalized math is published in various places, but examples are not found to answer this question. Merging of large blackholes at speed about 0.60c does not seem to exceed a stability limit along the gravity wave.
Preliminary calculations in hierarchy of Plancks have suggested that merging at 0.980c would have power and geometry sufficient to open spontaneous wormholes around the sources through which much of the kinetic energy might pass and dissipate. Sources other than merging black holes are thought to follow the same rules. This is suggested in other threads to be one possible mechanism for rapid inflation in the early universe. Other calculations with hierarchy of Plancks suggested that failure to dissipate enough energy in wormholes before they close would reach the critical instability when merging at 0.996c. Results may be applied to dragged frames behind accelerated vehicles since magnitude of power flux density in the stress wave is what determines the stability or loss of stability.
At first estimates a field generator would not reach the critical power density if wormholes were used correctly with the vehicle entering the wormhole at locally measured 0.96c to 0.99c, and the generator shutting down down while in the wormhole to avoid higher local speed.. These estimates could be wrong, with terrible results.
Much theoretical work is needed at the graduate level, unless it has already been done.
How Powerful Can A Field Generator Be Without Destabilizing Space Time?
The estimates depend on having more than 4D dimensions, at least 6D and more likely 12D in super symmetry. In other threads I showed how to construct and test 6D, 12D, and 26D using coordinates constructed from velocity components, clocks and meters, not the higher dimensions that most researchers are describing.
Deceleration, relative to isotropic CMB, is suggested to be the only safe thrusting mode when in a wormhole. In this representation 6D or higher space time becomes folded in layers or sheets across the path in front of a fast vehicle and the 4D wormhole becomes a short passage between layers.
Some researchers have suggested sideways acceleration can be done inside a worm hole with various predictions of time and space events. The math that is used in predicting this wormhole is a special case with acceleration and deceleration always in the direction of velocity. Without this the math is far more complicated and is not in the scope of this question.
In the 6D representation it has been suggested that the two additional dimensions are components of time, and a familiar 4D is encountered inside the wormhole. Then a sideways movement in any direction would be expected to be some sort of displacement in time as in time like coordinates, and beyond the scope of this question, needing other research.
Deceleration leads to exit and closing of the wormhole with the resulting location, speed, and direction depending on conditions before the wormhole opened, the time spent inside, and any dynamics that occurred between entry and exit.
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