We present the Lambda Convergence Universal Field Theory (LUFT) approach to the dark matter problem. In LUFT, the phenomena attributed to dark matter arise from the dynamics of the informational density field and its nonlocal coherence functional, rather than from undiscovered particles. Two distinct mechanisms operate at different scales. At cosmological scales (k 10^-3 h Mpc^-1), the coherence-induced effective mass generates a scale-dependent gravitational coupling \ (k) = G k²k² + ², \ suppressing large-scale structure growth by 2--3\ We perform quantitative comparisons with SPARC rotation curve data, analyze the Bullet Cluster constraint, and derive CMB bounds on the LUFT parameters. The theory produces five falsifiable predictions that distinguish it from both CDM with particle dark matter and from Modified Newtonian Dynamics (MOND). 0. 5em Status: Cosmological sector: derived from LUFT foundations, conditional on the C coarse-graining (spine Open Problem \#1). Galactic sector: conjectured extension requiring derivation from Layer-0 axioms. Quantitative fits: parametric (not ab initio). is derived from and K throughout; the multi-scale structure resides in the constitutive kernel, not in as an independent field. 0. 5em Keywords: Dark matter Lambda Convergence Universal Field Theory Scalar field gravity Rotation curves Bullet Cluster Structure formation Version note (v3. 2. 0, July 2026): A/B-sync with the spine v2. 13. 0 retraction: all c2 = A/B statements are replaced — A/B is a quadrature ratio with no kinematic content; the propagation cone is carried by the dispersion route (c2 = alpha*kappa at tree level, conditional on OS reconstruction). The kappa = A/B impedance carrier is replaced by the hypothesis status of the companion paper (v3. 4 status notice: kappa proportional to 1/Xi, without Layer-0 anchor). The multi-scale-kernel GAP flagged by the Xi-field paper remains open.
Ilja Schots (Thu,) studied this question.