Invicem Lorentz Oscillator Model (ILOM)

V.V. Semak; M.N. Shneider

arXiv:1709.02466·physics.optics·September 11, 2017·2 cites

Invicem Lorentz Oscillator Model (ILOM)

V.V. Semak, M.N. Shneider

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TL;DR

The paper introduces the Invicem Lorentz Oscillator Model (ILOM), a comprehensive theoretical framework for electron dynamics in atoms and molecules under electromagnetic waves, challenging traditional distinctions between linear and nonlinear optics.

Contribution

It presents a detailed theoretical model that extends the Lorentz Oscillator Model, providing a unified approach to electromagnetic interactions in media.

Findings

01

ILOM offers a more complete description of electron motion.

02

It reveals the artificial separation between linear and nonlinear optics.

03

The model simplifies to LOM under certain conditions.

Abstract

We present detailed theoretical model of electron motion inside of an atom or molecule when subjected to electro-magnetic wave. This theoretical model, that we called Invicem Lorentz Oscillator Model (ILOM), contains Lorentz Oscillator Model (LOM) as a simplified approximation. The ILOM demonstrates artificial nature of the separation of descriptions of electromagnetic wave propagation in media into Linear and Nonlinear Optics.

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Taxonomy

TopicsMechanical and Optical Resonators · Photonic and Optical Devices · Quantum Mechanics and Applications