## A Note on the Quantization Mechanism Within the Cold Big Bang Cosmology

**Authors:** Armando V.D.B. Assis

In my paper [3], I obtain a Cold Big Bang Cosmology, fitting the cosmological data,
with an absolute zero primordial temperature, a natural cutoff for the cosmological data
to a vanishingly small entropy at a singular microstate of a comoving domain of the cosmological
fluid. This solution resides on a negative pressure solution from the general
relativity field equation and on a postulate regarding a Heisenberg indeterminacy mechanism
related to the energy fluctuation obtained from the solution of the field equations
under the Robertson-Walker comoving elementar line element context in virtue of the
adoption of the Cosmological Principle. In this paper, we see the, positive, differential
energy fluctuation, purely obtained from the general relativity cosmological solution
in [3], leads to the quantum mechanical argument of the postulate in [3], provided this
energy fluctuation is quantized, strongly supporting the postulate in [3]. I discuss the
postulate in [3], showing the result for the energy fluctuation follows from a discreteness
hypothesis.

**Comments:** 2 pages.

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### Submission history

[v1] 22 Jun 2011

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