In this article, we reflect on dynamical evolution of bipartite correlations in quantum states. An especially strong correlation between particles can result in a single unified quantum state, as initially theorised by Einstein, Rosen, and Podolsky. In this unified state, the measurement of one strongly correlated particle has a direct effect on the other, regardless of the distance between them.
A synergistic mechanism of quantum tunnelling that preserves the information exchange in scale-space has been derived in our work, [2]. We have analysed the evolution dynamics of stochastic resonance synergies for different parameters entanglement, along various dimensions and scales, [1-8]. In our description, a wormhole binds two distinct clusters of quantum particles with various degrees of entanglement.
“One quadrupole universe” — in rephrasing John Wheeler. Dynamical cascades map multidimensional information in multiple scales.
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