This paper proposes a novel hypothesis regarding the origin of the universe, suggesting that the cosmos emerged not from a singularity-driven explosion, but as a result of the dynamic interaction and composition of two fundamental cosmic components: Dark Matter and Dark Energy. By avoiding the initial singularity and modified formulation of the Friedmann–Lemaî tre equations, this hypothesis delineates a model of cosmic expansion that exhibits enhanced consistency with String Theory and the 𝚲CDM model. Beyond addressing the challenges associated with the primordial moment, this model provides a theoretical framework for analyzing the nature of black holes, the origin of primordial baryonic matter, and the non-classical behavior of dark matter and dark energy at both micro and macro scales.
Vahedi et al. (Sun,) studied this question.