Laser-microwave spectroscopy of Cu I atoms in S Rydberg state

For the first time the energy level positions of Cu I atoms have been measured with high accuracy by means of laser-microwave spectroscopy in the 77-136 GHz frequency range. The new measurements cover the range of principal quantum number n = 31-38 for Rydberg series S 1/2 . Using our measured frequ...

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Hauptverfasser:	Dyubko, S.F., Efremov, V.A., Gerasimov, V.G., Efimenko, M.N., Perepechay, M.P., MacAdam, K.B.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Atom lasers Atomic beams Atomic measurements Energy measurement Energy states Frequency measurement Laser transitions microwave spectroscopy Position measurement Rydberg states Spectroscopy Time measurement
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creator	Dyubko, S.F. Efremov, V.A. Gerasimov, V.G. Efimenko, M.N. Perepechay, M.P. MacAdam, K.B.
description	For the first time the energy level positions of Cu I atoms have been measured with high accuracy by means of laser-microwave spectroscopy in the 77-136 GHz frequency range. The new measurements cover the range of principal quantum number n = 31-38 for Rydberg series S 1/2 . Using our measured frequencies in a joint fit together with the frequencies of optical transitions the quantum defect constants for this series are obtained. The description of our spectrometer, measurement technique and results is presented.
doi_str_mv	10.1109/CAOL.2008.4671875
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Atom lasers Atomic beams Atomic measurements Energy measurement Energy states Frequency measurement Laser transitions microwave spectroscopy Position measurement Rydberg states Spectroscopy Time measurement
title	Laser-microwave spectroscopy of Cu I atoms in S Rydberg state
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