TITLE:
Fractal Approximation of Motion and Its Implications in Quantum Mechanics
AUTHORS:
Maricel Agop, Daniela Magop, Elena Simona Bacaita
KEYWORDS:
Fractals; Quantum Mechanics; Gravitational Models
JOURNAL NAME:
Open Journal of Microphysics,
Vol.2 No.3,
August
16,
2012
ABSTRACT: Inconsistencies of some standard quantum mechanical models (Madelung’s, de Broglie’s models) are eliminated as- suming the micro particle movements on continuous, but non-differentiable curves (fractal curves). This hypothesis, named by us the fractal approximation of motion, will allow an unitary approach of the phenomena in quantum me-chanics (separation of the physical motion of objects in wave and particle components depending on the scale of resolution, correlated motions of the wave and particle, i.e. wave-particle duality, the mechanisms of duality, by means of both phase wave-particle coherence and wave-particle incoherence, the particle as a clock, particle incorporation into the wave and the implications of such a process). Moreover, correspondences with standard gravitational models (Einstein’s model, string theory) can be also distinguished.