“Stargate”-technology

Following an analogous method as once Max Planck when he derived Planck units from natural constants, and expressing Coulomb’s Constant (C = 8.988x10⁹ Nm²/C²) in term of Planck units, in 2 we found the charge contained in a Planck volume (Planck charge):

    (5)

This charge, divided by the charge of the electron (1.6022x10^-19 C), renders the amount of 11.71 leptons per Planck volume, corresponding to well-known virtual electron-positron pairs.

Since Coulomb’s Constant is a function of vacuum permittivity (e₀) and/or permeability (µ₀), Planck charge can be interpreted as the charge of virtual pairs existing in vacuum. In consequence, any vacuum Planck volume contains 11.71 virtual leptons. 11.71 is a mean value, which means that there can be 10, 11, 12, 13 etc. leptons at any time in a Planck volume, but that the mean is 12 entire leptons, because this is the entire figure that most resembles 11.71.

12 entire leptons correspond to 6 virtual pairs. It is known that any pair anihilates mutually and produces a gamma particle pair, which again anihilates mutually and renders an electron-positron pair in an almost immediate and endless sequence inside a much confined space. At the very moment of their mutual interaction, 12 leptons/gamma particles fuse and represent therefore approx. the volume of 6 particles/strings. Sine any string is considered to be unidimensional and of the Planck length, 6 strings would fill up the space corresponding to a 6 dimensional Planck volume.

Since the above-mentioned 6 virtual pairs are contained in a Planck volume that according to Coulomb’s Constant is a vacuum volume, it results that vacuum is a 6-dimensional space. (In fact, 6 one-dimensional strings concentrated on one spot, have per definition the extension of a 6-dimensional Planck volume).

In [2], we also showed that, by comparing the fermion/photon ratio of spacetime and QV, it results that QV contains 12 orders of magnitude more photons than spacetime. This enormous difference between both principally infinite macroscopic spaces, together with the above 6 dimensions found to exist in QV, demonstrate that QV and spacetime are different spaces, i.e. that they are not the same space.

Further, it is generally known from string theory that particles consist of 10-dimensional strings. These 10 dimensions correspond to 4 outside spacetime dimensions (the outer shell of the corresponding particle) and 6 curled dimensions inside string environment that are supposed to be a relict of Big Bang, so that the original 10 dimensional particle that exploded at the beginning of the universe rendered a large amount of smaller particles that carry inside curled 6-dimensional (Kaluza-Klein) universes of about the Planck size.