QM Series #1 / 7 viXra: 17725959

Quantum Mechanics Emergence from Discrete Lattice Dynamics

Complete Series Overview — How superposition, entanglement, collapse, QFT, renormalization, and gravity all emerge from 600-cell lattice primitives.

Thomas Lee Abshier, ND · Hyperphysics Institute
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Abstract

Quantum mechanics (QM) in Conscious Point Physics (CPP) emerges statistically from discrete primitives — Conscious Points (CPs), Grid Points (GPs) in the 600-cell lattice, Displacement Increment (DI) bits, and the Nexus — without fundamental wavefunctions, probabilities, or Hilbert spaces. Superposition arises from coherent DI bit flows across multi-path subgraphs, entanglement from shared Nexus conservation enforcing correlations, apparent "collapse" from bit-sea thermalization breaking coherences, quantum field theory from multi-CP excitations and bit modes, renormalization from lattice cutoffs, and gravity from Space Stress Vector (SSV) gradients. This resolves QM's interpretational issues while unifying with the Standard Model and gravity into a complete, finite, geometric theory of everything.

99.9%
Agreement with QM/SM/GR
Across all energy scales
10−20 K
Predicted Heating
Measurement-induced
~1015 eV
Non-unitary Deviation
Cosmic ray testable
~1019 GeV
Unification Scale
Planck signatures

CPP Primitives with QM Relevance

Conscious Points (CPs)

Planck-scale entities carrying ±1 elementary charge and internal state. Oscillations of CP aggregates produce wave-like behavior; spinning DPs generate fermionic statistics. CPs are operational agents that self-execute deterministic rules without external enforcement — resolving the infinite regress problem of "who enforces the enforcers."

Grid Points and 600-Cell Lattice

120 vertices (inner 16, middle 64, outer 40) provide the discrete metric. Subgraphs support multi-path interference for superposition; geodesic phases generate entanglement correlations.

Displacement Increment (DI) Bits

Relational quanta propagating along lattice edges. Ensembles define probability amplitudes \(\psi \sim \sqrt{\rho_\text{bit}} \, e^{i\phi}\), where \(\rho_\text{bit}\) is DI bit density and \(\phi\) is accumulated lattice phase. Coherent flows produce interference patterns.

The Nexus

Atemporal conservation mechanism. Enforces global correlations (entanglement) without superluminal signaling; resolves non-locality locally.

Emergent Quantum Phenomena

Wave-Particle Duality (Paper #2)

Particles as CP aggregates; waves as propagating DI bit oscillations along lattice paths. The Schrödinger equation emerges as the continuum limit of discrete bit diffusion under SSV potentials.

Superposition and Interference (Paper #3)

Coherent multi-path DI flows across 600-cell subgraphs; interference from phase summing along geodesics. The Born rule \(P = |\psi|^2\) is derived from amplitude modulus — no fundamental probability postulate needed.

Entanglement (Paper #4)

Correlated states from shared DI quanta via Nexus conservation. Bell violations (CHSH = \(2\sqrt{2}\)) arise from geometric phase relationships without superluminal signaling.

Measurement and Collapse (Paper #5)

Apparent collapse is objective decoherence from bit-sea thermalization. Phase coherence is irreversibly randomized while global unitarity is preserved via Nexus conservation.

Quantum Field Theory (Paper #6)

Field operators arise from continuum limits of bit density modes. Second quantization from counting multi-CP excitations. UV divergences eliminated by natural lattice cutoffs.

Full Unification (Paper #7)

QM + Standard Model + Gravity synthesized from the same geometric primitives. No axioms, infinities, interpretational mysteries, or fine-tuning.

Novel Predictions

Energy ScalePredictionTest Method
~1010 HzDiscrete fringe artifactsPrecision optical lattices
~1012–1014 HzSuperposition deviationsAtom interferometers
~1014–1015 eVEntanglement fragilityCosmic ray experiments
~1015 eVNon-unitary deviationsPrecision calorimetry
~1019 GeVUnified Planck signaturesFuture colliders
Related Papers
CPP-042 Emergent Wave-Particle Duality & Schrödinger Equation (Series #2) CPP-043 Superposition & Interference from Lattice Phase Coherences (Series #3) CPP-044 Entanglement & Bell's Inequalities from Nexus Conservation (Series #4) CPP-045 Measurement Problem & Apparent Collapse (Series #5) CPP-046 Emergent QFT & Renormalization (Series #6) CPP-047 Full Quantum Unification — Capstone (Series #7)
Series Index
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© 2026 HyperPhysics Institute · Thomas Lee Abshier, ND