Coherent magneto-optical resonances in hot potassium vapor

In this communication, we present experimental results on the preparation of magneto-optical resonances in potassium. The magneto-optical resonances are registered in Hanle configuration, i.e. monitoring the atomic fluorescence vs the applied magnetic field scanned around zero value. The excitation...

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Hauptverfasser:	Gateva, S, Tsvetkov, S, Todorov, G, Gozzini, S, Nasyrov, K, Andreeva, C, Cartaleva, S
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Sprache:	eng
Schlagworte:	Fluorescence Optical resonance Physics Potassium Resonance lines
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creator	Gateva, S Tsvetkov, S Todorov, G Gozzini, S Nasyrov, K Andreeva, C Cartaleva, S
description	In this communication, we present experimental results on the preparation of magneto-optical resonances in potassium. The magneto-optical resonances are registered in Hanle configuration, i.e. monitoring the atomic fluorescence vs the applied magnetic field scanned around zero value. The excitation of the second resonance line with a wavelength of 404.4 nm leads both to direct fluorescence at 404.4 nm and to a cascade decay with fluorescence at 770.1 nm and 764.5 nm (first resonance line transitions). This transfer is evidenced by the registration of a narrow magneto-optical resonance in the fluorescence. It should also be noted that even after multiple cascade transitions, the resonance observed on the infrared lines has a much better signal/noise ratio compared to that on the excited second resonance line. Therefore, the study of these sub-Doppler-width magneto-optical resonances in hot potassium vapor will be useful for the further development of high-resolution magneto-optical laser spectroscopy.
doi_str_mv	10.1088/1742-6596/1859/1/012022
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The magneto-optical resonances are registered in Hanle configuration, i.e. monitoring the atomic fluorescence vs the applied magnetic field scanned around zero value. The excitation of the second resonance line with a wavelength of 404.4 nm leads both to direct fluorescence at 404.4 nm and to a cascade decay with fluorescence at 770.1 nm and 764.5 nm (first resonance line transitions). This transfer is evidenced by the registration of a narrow magneto-optical resonance in the fluorescence. It should also be noted that even after multiple cascade transitions, the resonance observed on the infrared lines has a much better signal/noise ratio compared to that on the excited second resonance line. 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subjects	Fluorescence Optical resonance Physics Potassium Resonance lines
title	Coherent magneto-optical resonances in hot potassium vapor
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