The Big-Bang may have started from a single Planck particle, the maximum density of energy that is equivalent to a mini-black hole. The concept of an initial locus of the universe, allows predicting that in the bases of the fundamental constants, pre-horizon energy would undergo quantification and this would shape as a black body emission spectrum. This conform a sequential quanta-compounding mechanisms that plays the role of the horizon, for the emerged quantum structure energy-space-time, within the self-contained universe. The incorporation and quantification of the energy, during inflation by the joint or coupled: Cooperative interactions of Planck quanta-compounding and parametric down-conversion (PDC) interact to function cooperatively. Since the mechanism proposes, that along the cosmos radius integration of the radius of new photons determine inflationary velocity, the velocity of light is never exceed at any one point. However, it does predicts the exponential increase of the volume of the inflationary universe and the changing of energy density by a mechanism of photon spectrum-elongation and increase in the constitutive photon number, until arriving at the present CMB values. The newly form photons emerge distributed uniformly along the universe as a function of time and would be observable after galactic formation as a recessionary force, not subject of gravitation. The horizon role of recession velocity could be predicted, from the fact that if the Hubble’s constant 72 Km/s/Mpc multiplied by the total number Mpc in the universe radius (4134 Mpc) equals the velocity of light. The detection from all the space directions of the image of last dispersion (LD) may correspond with a holographic image reproduction. This is so, because holography allows obtaining multiple images of same event but at lower resolution, when a single photographic plate is divided. This effect, could be obtained because the same image becomes reproduced 1000 times, when the number of CMB photons increases by this number from the LD period to the present. Uniform amplification and dispersion of LD images becomes associated to the increase of the universe volume by 10^12 during this time, which the resultant loss of resolution. The expansion dominated by radiation can be modeled by its spectrum according to Planck’s law. The relative amount of the CMB photon population, its frequency v, and energy hv in a thermal radiation of temperature T, by unit of volume, were correlated by the Planck integral function.