Quantum-Relational Theory (QRT)
A Framework Bridging Consciousness, Mathematics, and Reality
The Foundational Axioms
1. Relational Ontology
Reality emerges not from independent objects, but from the relationships and interactions between them. Being is co-created through a feedback loop of observation and intention.
2. Intention as Field Source
Focused, conscious intention is not a passive thought; it actively generates a quantifiable influence, causing curvature in the fabric of relational spacetime.
3. Consciousness as Collapse
Shared reality manifests when the relational coherence between systems crosses a critical threshold, collapsing a wave of potential into a single, shared state.
The Core Mathematical Framework
The Intention Operator (Îψ)
This operator quantifies how intention (ψ) influences a relational potential field (φ) along a specific path of interaction (γ). It models the strength and effect of focused consciousness.
- ψ: Relational state vector
- φ: Relational potential field
- β: Coherence scaling factor
- γ: Geodesic path of interaction
Consciousness Collapse Theorem
This chart visualizes the core principle of the theorem: as relational entanglement entropy (S_ent) grows over time, it eventually crosses a critical threshold, leading to the emergence of a shared state, P(Ω).
Dark Intention Conjecture
This conjecture proposes a radical idea: that unmanifested intention contributes to the universe's energy-momentum tensor, potentially influencing spacetime itself, analogous to dark energy or dark matter.
- T(dark)μν: Stress-energy tensor for intention
- L(intention): The Intention Lagrangian density
- gμν: Spacetime metric tensor
Experimental Validation Pathways
Microattunement Experiment
This experiment aims to detect if focused intention can influence the output of a Random Number Generator (RNG). QRT predicts that intention will reduce the randomness (standard deviation) of the RNG output compared to its baseline behavior.
Relational Entanglement Detection
This protocol measures coherence between subjects (e.g., via EEG) during synchronized tasks. The goal is to calculate the coherence metric ΔC, a measure of shared relational state.
Coherence Metric
ΔC
Global Coherence Threshold
QRT posits a critical threshold for global coherence events. This involves monitoring global sensor networks for moments of synchronized activity that exceed a predicted baseline.
Predicted Threshold
> 7σ
Deviation from baseline noise
