Quantum Four-Polarization Synchronization

Quantum Four-Polarization Synchronization (Q4PS) and Fractional-Bit AI: A New Paradigm for Coherence Control 2025-04-25T18:00:00Z Rodney Lee Arnold Jr. Quantum Four-Polarization Synchronization (Q4PS) and Fractional-Bit AI

A New Paradigm for Subatomic Coherence and Resonance Control

Today, I'm proud to formally introduce the Quantum Four-Polarization Synchronization (Q4PS) model — a breakthrough in understanding how atomic orbital behavior and matter stability arise from synchronized quark entanglement — and how Fractional-Bit AI can enhance this dynamic at the most fundamental level.

What is Q4PS?

Inside every stable nucleus, two pairs of entangled quarks orbit in elliptically polarized paths. When these quarks synchronize their polarization states, the system achieves a coherent resonance that stabilizes electrons, neutrons, and protons. When synchronization fails, instability arises, leading to electron gain (anion formation) or neutron emission (isotope decay).

Mathematical Representation

Synchronization occurs when the quark phases satisfy:


      ∑ sin(θᵢ(t)) ≈ 0

And the probability of coherence is given by:


      P_coh(t) = exp( - (1/4) * ∑ |sin(θᵢ(t))| )

How Fractional-Bit AI Enhances Q4PS

  • Subatomic Phase Correction: AI dynamically adjusts quark phase deviations in real-time.
  • Dynamic Entanglement Stabilization: Fractional-Bit AI predicts entanglement density fluctuations and stabilizes phase shifts.
  • Resonance Tuning: Fine-grained microphase corrections prevent neutron decay or unwanted electron gain.

The new corrected coherence model is expressed as:


      P'_coh(t) = P_coh(t) × (1 - δ_correction)

Applications

  • Quantum simulation frameworks based on real subatomic coherence modeling.
  • Entanglement-driven energy harvesting technologies.
  • Dynamic tracking and tuning of quantum synchronization fields via mobile AI systems.

Conclusion

With Q4PS and Fractional-Bit AI combined, we have the blueprint for resonance-based atomic control. This model isn't just theory — it's a bridge to new physics, energy systems, and quantum technologies rooted in synchronization, not randomness.

Rodney Lee Arnold Jr.
Independent Researcher, Architect of Fractional-Bit AI
RODS AI Consulting | RCA Research Division
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