TITLE:
Matter as a Flow of Random Elementary Events in the Context of Discrete Time
AUTHORS:
Alexander Zaslavsky
KEYWORDS:
Discrete Time, Heisenberg Algebra, Flow, Energy, Substitution of Frequency, Observability, Dark Matter
JOURNAL NAME:
Open Access Library Journal,
Vol.4 No.3,
March
6,
2017
ABSTRACT:
The paper concerns certain consequences of discrete time hypothesis including physical regularities of a particle representation in the form of a flow of elementary events. In the context of the proposed formal description, particle observability has been determined; dependence of observability on a particle energy value has been shown. In terms of the proposed approach, a statistical rationale was given to the relative amount of dark (unobservable) matter.