Quantum electrodynamic equations for magnetic resonance- and optical   spectroscopic transitions

D.Yearchuck; Y.Yerchak; and A.Alexandrov

arXiv:0903.0320·quant-ph·March 3, 2009

Quantum electrodynamic equations for magnetic resonance- and optical spectroscopic transitions

D.Yearchuck, Y.Yerchak, and A.Alexandrov

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TL;DR

This paper derives quantum electrodynamic equations for magnetic resonance and optical spectroscopic transitions, predicting new phenomena like stochastic spin wave resonances due to EM-field quantization.

Contribution

It presents the first derivation of quantum electrodynamic equations for these transitions and predicts novel effects arising from EM-field quantization.

Findings

01

Prediction of stochastic electrical and magnetic spin wave resonances

02

First derivation of quantum electrodynamic equations for spectroscopic transitions

03

Introduction of effects of EM-field quantization

Abstract

Quantum electrodynamic equations for magnetic resonance- and optical spectroscopic transitions have been for the first time obtained. New phenomena - stochastic electrical and magnetic spin wave resonances are predicted to be the effects of EM-field quantization.

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Taxonomy

TopicsQuantum optics and atomic interactions · Quantum Mechanics and Applications · Quantum Information and Cryptography