E-raamat: i(time)

Quantum Mechanics Reinterpreted Within the i(time) Model presents a process-based reinterpretation of quantum mechanics in which spatial structure is no longer treated as fundamental. Instead, the framework introduces a complex-temporal representation: Z = t + i(t₁, t₂, t₃) where conventional space is understood as a projection of orthogonal imaginary-time dimensions.Within this model, core quantum phenomena are re-described structurally:the Schrödinger equation governs evolution in complex timedecoherence becomes a reduction of temporal possibilitiesmeasurement is temporal clarification rather than spatial localizationwave–particle duality reflects projection between full complex-time dynamics and real-time stabilizationentanglement corresponds to shared temporal structure rather than spatial connectionClassical space and objects emerge as stable projections of deeper temporal dynamics under coherence constraints. At the same time, this book should be read with an important qualification:the i(time) model is not presented as a final ontology.It is a representational regime—a geometric and conceptual bridge that makes underlying process-based structure more intuitively accessible. Historically, it preceded the development of Dynamic Record (DR) Theory, which articulates these structures in a more abstract, non-geometric form.In this sense, the i(time) framework functions as:a transitional lens through which the relational and process-based character of quantum mechanics can be more directly seen.The mathematical formalism of quantum theory remains unchanged. What shifts is the interpretation: from objects evolving in space to coherence-preserving processes unfolding in a structured temporal domain.-------