This research paper develops the formal conceptual and mathematical foundation for Vibrational Information Field Theory (VIFT). The theory posits that the most primitive constituents of reality are not particles or empty spacetime, but specific vibrational modes of an underlying universal Information Field (IF). Key Theoretical Contributions:1. Ontological Shift: Formulating quantum superposition as the absence of informational exchange and defining "measurement" as the interaction-mediated transfer of information between localized vibrational modes.2. Relativistic Integration: Proposing that relativistic time dilation directly modulates the rate of information flow, thereby influencing the coherence lifetimes of quantum systems.3. Black Hole Interior Dynamics: Modelling black holes as regions of "frozen" or non-oscillatory information where vibration amplitude tends to zero, offering a novel perspective on the information paradox.4. Cosmological Origin: Treating the Big Bang as a primordial excitation of the Information Field that seeded all stable vibrational modes (matter and energy).5. VIFT-SVG Synthesis: Connecting the framework to the author's prior work on Spacetime Vortex Gravity, where the rotational degrees of freedom in the vacuum are treated as specific informational vortices. The paper provides candidate field equations, variational principles, and phenomenological predictions, alongside concrete experimental proposals involving ion-storage rings and analogue-horizon BEC setups to test the limits of informational decoherence.
Mohmad Anasuddin Zaid Mohd (Thu,) studied this question.
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