Tuesday, December 13, 2022

Jack Sarfatti wants us eternally red-shifted?

 I have been reading Jack Sarfatti's "Stargate" education project book. He insists on having a quantum particle from Bohm that, inspired by Wheeler, is, eternally red-shifted at the quantum foam virtual wormhole horizon. Such an existence then "rides" or is guided by the superluminal back reaction signals from the future negative energy. In other words the negative energy is going "forward in time" due to the particle back reaction on the virtual future even though the negative energy is going backwards in spacetime. It's a very fascinating idea.

 Jack responded that I'm making it too complicated and I don't understand yet...he posted this!

As the barrier height is increased, the Dirac
equation predicts the counter-intuitive result that the particle is
able to get through the barrier. The Bohm picture shows that what is
actually happening is that the particle motion is opposite to its wave
motion in the "paradoxical" region. Therefore, the actual hidden
variable particle is not incident on the barrier from the left, but is
coming in from the right and simply falls "over the cliff" into the
region of its "incident" wave. (p.515)

Bohm's theory permits a visualization of the Dirac equation's
"Zitterbewegung" ("Trembling movement"). This is an oscillation about
the classical motion confined to a tube of diameter equal to the
Compton wavelength h/mc. (12.3.3)

So far we have focused on the classical "particle" hidden variable.
But Bohm's theory also has the classical gauge fields, like the
electromagnetic field, as a hidden variable.

.....

I want to use microcausality-violating
commutation rules which allow faster-than-light signal propagation
within the spacelike surface as a description of the invisible dark
matter and exotic matter. This kind of theory may eliminate the need
to renormalize. But it is mathematically difficult although the use of
Green's functions with new superluminal mass shells and new contours in
the complex energy plane seems to be the way to go. Violations of the
spin-statistics connection for dark and exotic matter are expected.

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