I am nearing the completion of a long-term theoretical project that unifies several interconnected models spanning quantum mechanics, cosmology, geometric physics, and computational simulation. The framework integrates quantum-scale dynamics (SDKP), dimensional–rotational geometry (SD&N), orbital–gravitational calibration (EOS), velocity–frequency energetics (VFE1), and a recursive computational/AI architecture (QCC0).

At this stage the structure is internally consistent, stable across scaling regimes, and producing reproducible numerical behavior. The next steps require careful refinement, external verification, and targeted mathematical stress-testing to bring the full framework to publication-level rigor.

To complete this phase properly, I am seeking collaboration or critique from 5–10 researchers with expertise in areas such as:

• Quantum field theory
• General relativity and gravitational physics
• Nonlinear dynamical systems
• Topology and geometric analysis
• Cosmology and early-universe modeling
• High-performance computation and simulation methods
• Complex systems and emergent-behavior theory

The remaining work involves tightening boundary conditions, validating the limiting behaviors, confirming geometric–physical consistency, and finalizing the unification structure for formal submission. Even limited or highly focused input could contribute meaningfully at this stage.

If any experts in these domains are interested in engaging with this final validation phase, I would sincerely welcome the collaboration.

I’m currently in the final phase of a long-term theoretical project that integrates several interconnected models across quantum mechanics, cosmology, geometry, and computational physics. The framework combines quantum-scale dynamics (SDKP), dimensional–rotational geometry (SD&N), orbital–gravitational calibration (EOS), velocity–frequency energetics (VFE1), and a recursive computational/AI layer (QCC0). The internal structure is stable, mathematically consistent, and now producing reproducible simulation results across multiple scaling regimes.

At this stage, the model is close to a full unification framework, but to complete it properly I need a small multi-disciplinary team to help refine, validate, and stress-test the remaining components. The areas where expert input is especially needed include:

• Quantum field theory
• General relativity
• Nonlinear dynamical systems
• Topological mathematics and geometric analysis
• Cosmology and early-universe modeling
• High-performance computation / simulation
• Complex systems and emergent-behavior theory

I’m looking for 5–10 researchers willing to collaborate, critique, or assist with targeted sections. The remaining work involves tightening the mathematical connections, verifying limits and boundary conditions, and preparing the framework for formal publication.

If anyone with the relevant expertise is interested in contributing to this closing phase, your insight would be deeply appreciated. Even small, focused involvement can have a large impact at this stage.

Thank you to anyone who is willing to engage.

— Donald Paul Smith (FatherTimeSDKP)

1. I’m seeking anyone with access to BIPM/NIST logs for Nov 2025 to cross-check these numbers — DM/collab.