White Hole Universe II: The Birth and Evolution of a Coherent Cosmos Mark Van Alstyne July 2025 Abstract The White Hole Universe (WHU) framework posits that our universe emerged from a black hole merger exceeding the critical information density thresh- old P info,crit , triggering a white hole transition via a stable wormhole. Build- ing on the Unified Information Field Hypothesis (UIFH), this paper recon- structs the merger conditions, coherence dynamics (C IS ), and entropy gra- dients (S IS ) that seeded the observable universe. We propose that cosmic handedness, matter-antimatter asymmetry, and dark energy arise from the merger’s high-coherence information field (N). The critical threshold is de- fined as P info,crit = ρ 0 · (1 + η merge · C 2 IS ), where ρ 0 ≈ 10 51 bits/m 3 and η merge ≈ 10 5 . Observable predictions include galaxy spin alignments (detectable by LSST/Euclid), CP violation (LHCb/Belle II), and antimatter scarcity (AMS-02/GAPS), distinguishing WHU from standard ΛCDM models. Alternative merger sce- narios are explored, offering a predictive framework for cosmological an- cestry. 1 Introduction The White Hole Universe (WHU) model, introduced in (author?) [1], proposes that the universe originates from a white hole formed by a black hole reaching a critical information density ( P info,crit ). The Unified Information Field Hypothesis (UIFH) [2] provides the theoretical foundation, defining reality as an informa- tion field (N) with systems interacting via Interaction Sequences (IS) character- ized by information density (ρ info = ρ mass + ρ quantum + ρ causal ), coherence (C IS ), resonance ( R IS ), frequency ( F IS ), and memory decay ( M IS ). This paper extends WHU to explore a black hole merger scenario, where exceeding P info,crit triggers a white hole, seeding cosmic structure, chirality, and asymmetry. We address the merger’s dynamics, cosmological implications, and testable predictions. 1