This paper presents a model of quantum superposition as a physical consequence of temporal spreading in quantum systems. Rather than describing superposition abstractly through wave functions, this model proposes a concrete physical mechanism: a microparticle does not exist at a single moment in the observer's time, but across an interval of times — which, from the observer's perspective, produces multiple simultaneous states. Wavefunction collapse is interpreted as temporal synchronization between the particle and its macroscopic environment — a mechanical, physical process requiring no role for consciousness. The model is applied to quantum entanglement, tunneling, and decoherence, with all phenomena explained by the same mechanism. A key property of the model is its bidirectional consistency: superposition implies temporal spreading and vice versa, distinguishing it from purely mathematical interpretations.
Branislav Hláčik (Sat,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: