03-31-2011, 07:27 PM
I think of the densities as embodying different physical laws. Thus the "standard model" of modern physics is describing 3rd density physics only. The "added vibrations and rotation" suggest that in higher densities photons, or the corresponding entity, has more rotational degrees of vibrational freedom. In 3rd density physics a photon is specified by having a single "spin" quantum number of 1 (as do the other carriers of force, which become indistinguishable at high energies/temperatures). Particles such as electrons have a spin number of 1/2.
I think (with nothing to back this up besides that it could produce more complex physics) that in higher densities the photon (and other particles) has more than one quantum number that define its behaviour. In certain cases these particles would be able to interact with 3rd density physical systems (e.g. by projection) but would otherwise be incompatible and not interactive (and hence would appear invisible to each other).
I think (with nothing to back this up besides that it could produce more complex physics) that in higher densities the photon (and other particles) has more than one quantum number that define its behaviour. In certain cases these particles would be able to interact with 3rd density physical systems (e.g. by projection) but would otherwise be incompatible and not interactive (and hence would appear invisible to each other).