A Coherence-Field Interpretation of the Cosmic Dipole Anomaly within the DEBA Cosmological Framework

Recent cosmological observations reveal a persistent dipolar anisotropy in the large-scale distribution of extragalactic sources. While traditionally interpreted as a purely kinematic effect associated with observer motion, accumulated data indicate discrepancies in amplitude and alignment that motivate a deeper dynamical interpretation. Within the DEBA (Deterministic Emergence by Actualization) framework, the Universe is described as an organized dynamical system governed by large-scale coherence rather than independent material components. In this work, we propose that the cosmic dipole constitutes the observable projection of a directional coherence gradient embedded in the spatial organization of the Universe. Without introducing new entities or modifying gravitational laws, we show that a coherence field naturally generates large-scale directional modulations affecting number counts, trajectories, and lensing reconstructions. This interpretation leads to explicit, testable predictions regarding redshift dependence, directional stability, and correlations with large-scale structure surveys. The cosmic dipole thus emerges not as a residual correction, but as a large-scale memory of cosmic organization.