Abstract This text explores the ontological relationship between vibration, resonance, and consciousness within the framework of informational physics. It proposes that vibration represents polarized existence, while resonance constitutes consciousness as a neutral transmission of information. The informational field, understood as compressed space, becomes the matrix of form and the gravitational force that prevents informational collapse into matter or energy. Through this model, consciousness is redefined as resonance — not decoding — and the informational field as the structural foundation of reality, where time operates as an instantaneous vector rather than a linear progression. Extended Description This work develops a conceptual model of consciousness as resonance within a polarized informational universe. It reinterprets vibration as the fundamental act of polarization that generates existence, while resonance emerges as the simultaneous consciousness of that vibration. The informational field — defined as compressed space — functions as both the matrix and the gravitational structure that maintains informational coherence, preventing collapse into matter or energy. The text introduces the notion of a gravitational‑centripetal force as an informational classifier, distinguishing resonance from decoding. In this framework, consciousness is not the interpreter of data but the resonant echo that sustains informational continuity. The study concludes by proposing that time, in the informational field, operates as an instantaneous vector — a non‑propagating dimension that enables direct coherence between vibration and resonance. This model opens a new perspective on the physics of consciousness and the ontology of form. Keywords Informational Field, Resonance, Vibration, Consciousness, Polarization, Gravitational Field, Compressed Space, Informational Physics, Ontology of Form, Instantaneous Time Vector. DOI Description Philosophical‑scientific reflection on the informational structure of consciousness and the gravitational nature of resonance.
Oliva FMOO (Tue,) studied this question.