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Thus, what you would have is a lead molecule with a relatively high mass and a relatively large quantity of Higgs Bosons connected with a large number of lighter molecules, mostly carbon, which innately have less total mass.
What then, happens when two different types of atoms with two different levels of Higgs concentrations are forced into a state where the molecule as a whole is intra-superconductive, as in a BEC? The answer is that Higgs Bosons would be able to flow outward from protons in the lead atom at the core of such a complex and would accumulate in the protons of the carbon atoms that are convoluted with the lead. This relative excess of the Higgs Boson, combined with the continued maintenance of the BEC state causes the protons to act like a sail that catches a little more wind than it normally would.
Ordinarily, most matter moves forward in time at a steady rate, consistent with the matter surrounding it. Standard Higgs particles propel matter forward in time and, as in the case of tachyons, inverted Higgs can cause neutrinos to briefly flow backwards depending upon the extent of and duration of their negative mass state.
In this case, a bridge between present and future is formed by one molecule proceeding forward in time at an artifically accelerated rate, but a quantum entanglement with another companion molecule within the brain of another precognitive subject facilitating transfer of information. Where the companion molecule may have a natural Higgs balance and be composed of like elements, the subject with organic BEC structures that are made from dislike elements, as in the case of lead-carbon complexes, would have the capacity to send information backward from a forward point in time. This is what makes forming a "wormhole" between present and future possible. It happens in nature and it can be artificially reproduced.
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