QSpace is an exploratory framework that asks whether what we observe as three-dimensional space may reflect only part of a deeper geometric structure. Familiar 3D physics is not denied or dismissed, in fact it is relied on. It is treated as the observable expression of more complete coherence structures.
Within QSpace, two complementary behaviors are used to describe this same structure: Quanta Push (QP), representing forward-flowing coherence, and Quanta Curvature (QC) representing curvature and structural persistence. Their interaction is characterized using six core traits (Φ, A, ℛ, χ, τ, κό), which together provide a common language for discussing phenomena across scales — from quantum behavior to large-scale cosmic structure.
The framework generates specific, testable predictions, including projection-dependent gravitational anomalies, subtle shifts in quantum interference under rotation, and large-scale structure patterns tied to geometry. Some of these predictions intersect existing astronomical and laboratory observations, while others remain open to testing.
Rather than introducing new particles or forces, QSpace explores whether certain effects commonly attributed to dark matter or dark energy could arise from geometric projection and information loss. The emphasis is on falsifiability and on identifying where existing models may be incomplete.
Read the 10page Condensed Overview
Read the QSpace Formal Theory v2