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Provisional Patent Application

Fascial Qubit Arrays for Biological Quantum Computing
Justin Bilyeu and BDS Team
April 12, 2025

Field of the Invention

This invention relates to quantum computing systems, specifically utilizing biological fascial tissue configured as quantum computational units (qubits).

Summary of the Invention

We disclose a novel biological quantum computing system leveraging the inherent quantum coherence of fascial collagen fibers. Fascial tissue provides macroscale SU(2) spinor states, mechanically stabilized by the intrinsic tensegrity structure of connective tissue, integrated with:

  • Piezoelectric control gates (PVDF)
  • Nanoparticle arrays arranged in golden ratio (φ ≈ 1.618μm) geometry for quantum error correction

Quantum state manipulation and entanglement are achieved through targeted 40 Hz electromagnetic (PEMF) pulses.

Core Patent Claims

1. Biological Quantum Computing System

Comprising:

  1. Fascial tissue encoding quantum information as stable SU(2) spinor qubits
  2. Integrated piezoelectric sensors/actuators (PVDF) for qubit state manipulation
  3. Gold nanoparticle arrays with golden-ratio spacing (≈1.618μm) for topological error correction

2. Method for Generating Fascial Qubit Entanglement

  1. Applying 40 Hz electromagnetic pulses to induce coherence states
  2. Stabilizing entanglement via piezoelectric gating mechanisms

Brief Description of Drawings

  • Figure 1: Fascial qubit array diagram showing:

    • Golden-ratio nanoparticle arrays
    • PVDF piezoelectric gates
    • Embedded PEMF coils

  • Figure 2: Qiskit-compatible quantum circuit schematic for:

    • Spinor state preparation
    • Manipulation
    • Measurement

Advantages and Novelty Over Prior Art

  • Macroscopic quantum coherence via fascial tensegrity
  • Unique integration of:
    • Piezoelectric control
    • φ-based geometric error correction
    • Biological quantum measurement
  • Distinct from DNA/microtubule approaches

Inventors

  • Justin Bilyeu
  • BDS Team

Contact Information

[email protected]

Funding Options