This paper presents Project TORUS, an experimental framework derived from the Quantum Contact methodology, designed to investigate whether decoherence in a quantum interference pattern can function as an information-bearing signal rather than mere noise. Decoherence is reframed as a binarizable indicator of external influences. The framework defines three hypotheses: H1 (micro-stabilization by observation), H2 (micro-coherence and negentropic ordering associated with high cognitive coherence measured via EEG), and H3, where decoherence itself is treated as a structured response channel subdivided into three operational levels. The project emphasizes reproducibility, open data, and micro-stochastic analysis.
Juan Sebastian Baena Cock (Wed,) studied this question.