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We present UUHMT Wave Surfer, a two-dimensional agent-based simulation in which 3,500massless test particles (agents) are advected by the gradient of a superposed scalarinterference field governed by wave modes at frequencies harmonically related to the HarmonicResonance Theory (HRT) foundation frequency ω₀ = 0.313. Starting from uniformly randominitial positions, agents spontaneously self-organize into cosmic web topology — filaments,nodes, and voids — within approximately 12 simulation time units, without gravity, dark matterparticles, hydrodynamics, or any attractive force between agents. The organizing principle ispurely kinematic: agents surf scalar field wave crests and troughs toward constructiveinterference nodes. The resulting large-scale streaming toward attractor nodes constitutes anatural mechanism for observed Dark Flow — coherent large-scale bulk motion of matterindependent of local gravitational structure. The void-node geometry of the field reproduces theMexican Hat potential characteristic of spontaneous symmetry breaking in quantum field theory,with agents settling into degenerate ring minima around each void maximum. Wave Surferprovides the first visual demonstration of the core HRT causal claim: field geometry precedesand determines matter distribution, not the reverse. Three falsifiable predictions are presented. The standard cosmological model (ΛCDM) explains large-scale structure formation throughgravitational instability: small density perturbations in the early universe grow under gravity, withdark matter providing the scaffolding into which baryonic matter falls. In this picture, matter isprimary and geometry is secondary — the cosmic web of filaments, nodes, and voids emergesfrom the accumulated gravitational dynamics of matter acting on matter over billions of years.Harmonic Resonance Theory (HRT) proposes the opposite causal order [McKenna, 2026]. Fieldgeometry is primary. Scalar field standing wave nodes pre-exist as curved regions of space, and matter coalesces into those pre-existing structures rather than creating them. The cosmic web isnot the product of gravitational collapse — it is the visible imprint of an underlying scalar fieldinterference pattern. Matter does not fall. It surfs.This paper presents UUHMT Wave Surfer, a simulation designed to make this causal claimvisually explicit. Agents — massless test particles with no mutual interaction — are placed in asuperposed scalar interference field and advected by the field gradient. No gravity. No darkmatter. No hydrodynamics. The only force acting on agents is the local slope of the wave field.Within 12 simulation time units, the agents have organized themselves into unmistakablecosmic web topology: filaments connecting nodes, with coherent large-scale streaming towardattractor regions.The simulation further reveals two phenomena not anticipated in the original design. First, thevoid-node geometry of the interference pattern reproduces the Mexican Hat potential ofquantum field theory spontaneous symmetry breaking — each void is a local field maximumsurrounded by a ring of degenerate minima into which agents settle, precisely the geometry ofthe Higgs mechanism. Second, the coherent large-scale streaming of agents towardconstructive interference nodes provides a natural kinematic mechanism for Dark Flow — theobserved but theoretically unexplained bulk motion of galaxy clusters toward a massive attractorbeyond the observable universe [Kashlinsky et al., 2008].The four wave modes are not arbitrary — their frequencies are harmonically related to the HRTfoundation frequency ω₀ = 0.313 (see Table 1), tying Wave Surfer explicitly to the samefoundation that governs particle masses, black hole spin, and the cosmic matter fraction. WaveSurfer is the fifth publication in the PDRI research series. It provides the visual and mechanisticfoundation for results previously reported numerically: the Planck-consistent matter-energyfractions of UUCET v5.0 [McKenna, 2026b], the acoustic analog black hole predictionsconfirmed by JWST and Chandra [McKenna, 2025a, 2025b], and the unified scalar fieldframework of HRT [McKenna, 2026a].