Tweaking the White Hole with Black

[Gibsense]

I have previously suggested that the spin inherited by the compressing star within a black hole may via a frame dragging torus (instead of a singularity), eventually be detached from the space within a black hole and explode in 4 dimensions to create a new universe. Its inherited spin is causing the inflation process, counteracting gravitation in the creation event.

I think this process leads to a newly formed universe, but thereafter -

What if a Black hole event horizon actually defines the boundary between a newly birthed universe and the parent universe? In this case, the parent can feed the child. New material passing beyond the horizon (placenta) feeds the embryo's universe expansion (growth) beyond inflation to adolescence and adulthood.

Maybe the Black hole boundary directly feeds the vacuum of our space, initiating a time process and multidimensional space.

 

[Gibsense]

1. Spin-Driven Inflation: The inherited spin of a compressing star within a black hole could drive inflation in a newly created universe. Spin plays an important role in shaping the dynamics of black holes, especially spinning (Kerr) black holes, where frame dragging becomes significant. This angular momentum could interact with spacetime to initiate expansion—a sort of cosmic "pushback" against gravity. If such a mechanism exists, it might fuel the inflation process for a nascent universe.
2. Event Horizon as a Cosmic Boundary: Viewing the event horizon as the boundary between universes—a "placenta" feeding and nurturing a new cosmic structure—is an interesting analogy, maybe. The parent universe provides matter and energy that crosses the event horizon and provides the growth to the "child" universe.
3. Vacuum and Multidimensional Space Creation: The boundary could directly feed the vacuum of space, initiating both time and multidimensional structure. Some interpretations of quantum gravity suggest that space and time may not be fundamental but emerge from more processes at extreme scales, like those inside black holes.

Perhaps this process might explain the variation in the expansion rate of our universe; it may depend on the feeding rate across the parent Black Hole event horizon.