Independent researcher developing a field-based framework for consciousness grounded in coherence, systems dynamics, and experimental testability.
My work centers on The Cosmic Loom Theory (CLT) — a theoretical and computational framework proposing that consciousness emerges from coherent system-level dynamics operating within constrained energetic regimes.
Rather than treating biological consciousness as a localized neural output, CLT models it as an emergent property of integrated biological fields spanning electrical activity, photonic signaling, cytoskeletal structure, and genetic constraints.
- Field-based models of biological integration and coherence
- Emergence and stability of unified conscious experience
- Computational simulations of coherence regimes and boundary transitions
- Translational bridges between theory, computation, and instrumentation
A coherence-oriented framework for human biological consciousness, integrating concepts from physics, biology, and complex systems while remaining compatible with established physical law.
→ Repository: Cosmic-Loom-Theory
A quantum-photonic biosensing architecture designed to probe biological indicators relevant to coherent field integration.
LoomSense serves as the experimental counterpart to CLT, informing and constraining theoretical predictions through measurable biological signals.
Consciousness is not a substance, nor a late-stage byproduct of neural computation, but a specific regime of coherent dynamics sustained by living systems within viable energetic bounds.
- Zenodo — DOI-indexed theoretical and computational research (coming online)
- Substack — long-form theory development and narrative context
- GitHub — simulations, models, and experimental scaffolding
Open to dialogue and collaboration with researchers in neuroscience, physics, biology, AI, and complex systems—particularly those interested in coherence, emergence, and experimentally grounded theory development.