The Scalar Temporal Field Ontology (STFO) proposes that time is a fundamentalscalar field τ(xμ) whose structure underlies spacetime geometry, quantummeasurement, and gravitational dynamics. In this work we extend the STFOframework by proposing that temporal structure exhibits elastic behavior undercompression and develops turbulent gradients in the presence of matterdistributions. Energy is interpreted as localized temporal compression, whilespace corresponds to the unfolding of temporal structure. Gravitationalphenomena arise from gradients in the temporal field, interpreted here astemporal turbulence driven by inhomogeneous matter distributions. A nonlineartemporal self-interaction is proposed that enforces a hard limit on temporalcompression, preventing singularities and replacing them with regions ofmaximal temporal accumulation. This interpretation naturally connects blackholes, cosmic expansion, and quantum decoherence within a unified temporalfield framework.
Cale Scott Howe (Tue,) studied this question.
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