In standard cosmology, nucleogenesis is viewed as a one-time event in the early Universe associated with extreme temperatures and densities. This paper proposes an alternative processual framework in which the formation of baryonic matter is not a historical act but a continuous local process occurring in regions of dissipation node deficit --- primarily in cosmological voids. This work is developed within the Wayward Metamonism framework, treating reality as a self-regulating dissipation process rather than an object-based ontology. The model builds directly on the previously established transition between metric and quantitative dissipation regimes (diff/diss), where it was shown that dissipation admits a shift from metric localization to quantitative flow discharge. Dissipation nodes act as self-regulating regulators of the balance between the global 4D actualization flow (understood as an integral flow, not a geometric dimension) and local node density. Voids emerge as critical zones of maximum under-dissipation gradient, making them natural factories of cold nucleogenesis.
Andrii Myshko (Tue,) studied this question.