Chaotic Behaviour of Atomic Energy Levels

A.Yilmaz; G.Hacibekiroglu; E.Bolcal; Y.Polatoglu

arXiv:0804.0253·nlin.CD·April 3, 2008

Chaotic Behaviour of Atomic Energy Levels

A.Yilmaz, G.Hacibekiroglu, E.Bolcal, Y.Polatoglu

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TL;DR

This paper investigates the chaotic behavior of atomic energy levels using the Schrödinger wave equation, focusing on the relationship between quantum numbers and spectral line splitting, revealing complex dynamics in atomic spectra.

Contribution

It introduces a derived inequality linking quantum numbers to chaos in atomic energy levels, providing new insights into spectral line splitting phenomena.

Findings

01

Chaotic behavior correlates with specific quantum number relationships.

02

Derived inequality predicts spectral line splitting.

03

Chaos influences atomic spectral properties.

Abstract

The authors of this paper studied Schrodinger wave equation to investiagate the chaotic behavior of atomic energy levels in relation with three quantum numbers n, l, m by means of derived inequality. It could give rise to the siplitting of atomic spectral lines. Keywords: Chaos, Schrodinger wave equation, atomic energy levels

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Taxonomy

TopicsMarine and environmental studies · Cold Fusion and Nuclear Reactions · Statistical Mechanics and Entropy