Mental Coherence as a Negentropic Driver in Micro-Stochastic Systems: The Quantum Contact Model
Mental Coherence as a Negentropic Driver in Micro-Stochastic Systems: The Quantum Contact Model
[EN] This record contains the bilingual preprint and technical report for the Quantum Contact model, a computerized double-slit–inspired micro-stochastic monitoring system. The work evaluates two protocols: (H1) binary observation (S4=1 vs S4=0) and (H2) continuous association between mental-state indices (Attention/Meditation, 0–100) and rolling micro-variability (e.g., rolling standard deviation). H2 Verdict (this record): GREEN — Defendable. H2 evaluates whether high Attention/Meditation epochs are associated with micro-stabilization (reduced rolling variability) in the target sensor(s) while a control sensor remains comparatively unchanged. In this dataset, S2 (target) shows a clear negentropic tendency under high Attention (ρ = −0.43, p < 0.0001), while S1 (control) remains near zero association (ρ ≈ +0.02), supporting selectivity rather than a global artifact. Scope: these results support H2 under the current instrumentation and protocol and are presented as robust association and micro-stabilization evidence, not as a definitive mechanism proof. [ES] Este registro contiene el preprint y el reporte técnico bilingüe del modelo Quantum Contact, un sistema micro-estocástico inspirado en la doble rejilla en versión computarizada. Se evalúan dos protocolos: (H1) observación binaria (S4=1 vs S4=0) y (H2) asociación continua entre índices de estado mental (Atención/Meditación, 0–100) y micro-variabilidad móvil (p. ej., desviación estándar móvil). Dictamen H2 (este registro): VERDE — Defendible (Sí). La H2 evalúa si los episodios de Atención/Meditación alta se asocian con micro-estabilización (reducción de variabilidad móvil) en los sensores diana, mientras el sensor de control permanece relativamente estable. En este dataset, S2 (diana) muestra tendencia negentrópica bajo Atención alta (ρ = −0.43, p < 0.0001), mientras S1 (control) permanece cerca de asociación nula (ρ ≈ +0.02), apoyando selectividad frente a un artefacto global. Alcance: estos resultados apoyan la H2 bajo la instrumentación y protocolo actuales; se presentan como evidencia de asociación robusta y micro-estabilización, no como prueba definitiva del mecanismo. Files: PDF (bilingual preprint + H2 Option C report + verdict page). Baena Cock, Juan Sebastian. (2026-01-18). Mental Coherence as a Negentropic Driver in Micro-Stochastic Systems: The Quantum Contact Model (Preprint + technical report). Zenodo. https://doi.org/10.5281/zenodo.18290126
Spearman correlation, experimental physics, experimental protocol, FOS: Physical sciences, open data, stochastic monitoring, Social and Behavioral Sciences, rolling standard deviation, reproducible research, Science and Technology Studies, double-slit experiment, Attention (ATT), consciousness–matter interaction, biophysics, Physical Sciences and Mathematics, EEG indices, psychophysiology, complex systems, EEG attention meditation, information theory, observer effect, Quantum Physics, quantum biophysics, Physics, Meditation (MED), quantum interference, Shannon entropy, mind–matter interaction, Quantum Contact, real-time monitoring, MindWave, negentropy, micro-stochastic systems, entropy reduction, Quantum Contact negentropy, noise dynamics, consciousness-matter interaction, signal stabilization, observer effect computerized double-slit double-slit-inspired, mental coherence, permutation test
Spearman correlation, experimental physics, experimental protocol, FOS: Physical sciences, open data, stochastic monitoring, Social and Behavioral Sciences, rolling standard deviation, reproducible research, Science and Technology Studies, double-slit experiment, Attention (ATT), consciousness–matter interaction, biophysics, Physical Sciences and Mathematics, EEG indices, psychophysiology, complex systems, EEG attention meditation, information theory, observer effect, Quantum Physics, quantum biophysics, Physics, Meditation (MED), quantum interference, Shannon entropy, mind–matter interaction, Quantum Contact, real-time monitoring, MindWave, negentropy, micro-stochastic systems, entropy reduction, Quantum Contact negentropy, noise dynamics, consciousness-matter interaction, signal stabilization, observer effect computerized double-slit double-slit-inspired, mental coherence, permutation test
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