TITLE:
Circular Scale of Time and Energy of a Quantum State Calculated from the Schrödinger Perturbation Theory
AUTHORS:
Stanisław Olszewski
KEYWORDS:
Circular Scale of Time, Schrödinger Perturbation Theory, Non-Degenerate Quantum State
JOURNAL NAME:
Journal of Modern Physics,
Vol.5 No.15,
September
26,
2014
ABSTRACT: The main
facts about the scale of time considered as a plot of a sequence of events are
submitted both to a review and a more detailed calculation. Classical
progressive character of the time variable, present in the everyday life and in
the modern science, too, is compared with a circular-like kind of advancement
of time. This second kind of the time behaviour can be found suitable when a
perturbation process of a quantum-mechanical system is examined. In fact the
paper demonstrates that the complicated high-order Schrodinger perturbation
energy of a non-degenerate quantum state becomes easy to approach of the basis
of a circular scale. For example for the perturbation order N = 20 instead of 19! ≈ 1.216 × 1017 Feynman diagrams, the contribution of which should be derived and calculated,
only less than 218 ≈ 2.621 × 105 terms belonging to N = 20 should be taken into account to
the same purpose.