Entanglement is a constitutive wave function of particles connected by the same quantum state. Hence, is either primordial to causal change, or Planck boson constitutive characteristic, as elementary particles that do not have a restriction on the number of them, which occupy the same quantum state, and delimits causality, which makes unnecessary inflation by their maximal coherence within the Big-Bang. Thus, allows 8E+60 Planck bosons to emerge entangled into space by their shared quantum state, synchronized by creating ...
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Entanglement is a constitutive wave function of particles connected by the same quantum state. Hence, is either primordial to causal change, or Planck boson constitutive characteristic, as elementary particles that do not have a restriction on the number of them, which occupy the same quantum state, and delimits causality, which makes unnecessary inflation by their maximal coherence within the Big-Bang. Thus, allows 8E+60 Planck bosons to emerge entangled into space by their shared quantum state, synchronized by creating the primordial space-time. The bosons still allow treatment by an associated wave function of an initial quantum process. Thus, responding to thermodynamics inwardly open system for entropy and outwardly for enthalpy, describing the structural relationship for dissipative 3D stage of quantum Planck, maximal energy density. Hence, the Big-Bang by shaking the primordial created space generates outward emission of gravitational waves. Event still compatible with General Relativity since delimits causality within the coupling of the 4th dimension with the 3D space surging within the minimum Planck time of 5.4E-44 s. The stages of uncoupling of forces generate the H atoms with centripetal space-time indentation. The latter, gravitational curvature could not attract the thermal radiation from kinetic enthalpy work. Thus, is devoid of the curvature structure, responding to gravitational attraction. Thus, expansion displaces to the frontier of the universe and its entropy is internalized in the self-generated voids, determining the cosmological constant by compensatory symmetry of opposite momentum. Thus, the Planck curvature moves outward creating space and when mass accelerates, producing by stretching and compacting space-time gravitational waves. The irreversible dissipation of the Planck bosons, by uncoupling of forces, is coupled to the inwardly dilution of entropy into voids.Black holes when lose energy evaporate and the radiated thermal spectrum results from entropy emission as a black body thermal radiation, which could not be trapped by galactic gravity. Thus, the cosmological constant allows an Einstein's relativistic universe to become expansive, dissipating entropy into voids.The Hubble's law shows galactic recession generating impulse and the emerging space-time, internalizing the resulting entropy in the voids. The enormous expansion of voids-volume produces a cooling effect diluting heat. But their frequency allows parametric down-conversion (PDC) treatment, as well as could be done for the cosmic background radiation (CMB). The velocity of light could be acting as a bottleneck delimited by critical density coupled to flattening expansion.The expansion recoil pressures over galaxies increments their inertial mass, increasing impulse and angular momentum, which could be sum-up to that of resting mass, increasing their gravitational field. But, not subtracting from the thermal radiation pressure contracting the galactic contours.The quantization of particles within the hadrons period occurs by the distension of the gravitational center from the axis of spin and angular momentum, which do not allow determinate position and velocity at the same time, by a deterministic treatment with solutions by quantum mechanics.
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