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The gradient between the vacuum and ordinary matter becomes more severe
when you increase mass-energy while at the same time
increasing -rho with real particle pair production, and so virtual pair
production should also increase with the increase in uncertainty, (dE),
that comes about as a result, and then real pair production increases as
well, as more virtual particles become available.
The vacuum expansion rate increases in proportion to the rate of
increase in -rho.
The
expansion rate will increase as increasing tension enables more and more high energy photons to be released to interact with local increases in
uncertainties. The theory must follow that Omega is always held very close to one by the process, and so the implication is that the next universe will necessarily be "nearly flat" too, as tension between the vacuum and ordinary matter become so great that the universe will leap to evolve, presumably, in
the form of another big bang. Imperfections are "Convolved" forward in time in an "evolutionary leap" ever closer to the impossible goal of an idealistically balanced static state.
If the above described density parameters hold the value for omega at
around 0.2, then geometrical instability isn't a problem of "flatness",
and this a more realistically plausible explanation for what
has previously hinged on a what was thought to be a precarious and
unlikely balance. The inevitable outcome is that tension between matter and
the vacuum will become so great that we will eventually have another big
bang, and the next universe will necessarily be flat as consequence of
the fact that the last one was too, as existing asymmetries that produce the constants are carried inherently forward through time. I don't think that a perfect cosmic singularity of infinite density,
energy, and absolute zero volume can exist and still produce an
asymmetric footprint for force decoupling, anyway, because it contradicts the
notion of "idealistically pure symmetry" that it is inherent
asymmetries which lead to all more disordered states for the entire
duration of the rest of the expansion event! Surely, the imperfections
which produce the constants must necessarily pre-exist at 10^-43.
There is no need for an equally awkward inflationary period to explain
the distance between galaxies on opposite sides of the universe if the
universe already has volume when tension between matter and the vacuum
becomes so great that a big bang occurs, and so the asymmetries which
produce the universal constants are "convolved" inherently forth to a
higher order of the same inclination toward thermal equilibrium, as the
process continues to move ever forward in time, in an impossible effort
to achieve the "pure symmetry" of a perfectly balanced static state,
which is more nearly achieved each time that the universe "evolves" over
the described perpetual thermodynamic process...
The Next BigBang
Vacuum energy density, (rho), is related to pressure by P=-rho, and so
vacuum expansion will be affected by pair production, as the negative
pressure component increases in proportion to the quantity of vacuum energy that gets condensed into positive mass objects, while the
gradient between the vacuum and matter becomes more severe via the
gravitaionally offset increase in vacuum tension.
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