Laser pumping methods in cesium and rubidium atoms in new generations of highly stable industrial quantum frequency standards

Theoretical and experimental studies have been made on laser pumping in quantum discriminators containing rubidium and cesium vapor cells, including double radio-optical resonance, light shifts of frequency, quality parameters, frequency instability, and so on. Good agreement is shown between the th...

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Veröffentlicht in:	Measurement techniques 2009-10, Vol.52 (10), p.1069-1075
Hauptverfasser:	Pikhtelev, A. I., Puzanov, S. L.
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Sprache:	eng
Schlagworte:	Analytical Chemistry Atoms & subatomic particles Characterization and Evaluation of Materials Lasers Measurement Science and Instrumentation Measurement techniques Measuring instruments Noise Physical Chemistry Physics Physics and Astronomy Quantum physics Radiation Studies
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creator	Pikhtelev, A. I. Puzanov, S. L.
description	Theoretical and experimental studies have been made on laser pumping in quantum discriminators containing rubidium and cesium vapor cells, including double radio-optical resonance, light shifts of frequency, quality parameters, frequency instability, and so on. Good agreement is shown between the theoretical and experimental results, which may serve as the scientific basis for constructing new generations of quantum frequency standards with elevated metrological characteristics.
doi_str_mv	10.1007/s11018-010-9397-x
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subjects	Analytical Chemistry Atoms & subatomic particles Characterization and Evaluation of Materials Lasers Measurement Science and Instrumentation Measurement techniques Measuring instruments Noise Physical Chemistry Physics Physics and Astronomy Quantum physics Radiation Studies
title	Laser pumping methods in cesium and rubidium atoms in new generations of highly stable industrial quantum frequency standards
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