Bright magneto-optical resonance sign reversal in Cs vapour confined in an extremely thin cell

An extremely thin cell (ETC) was used to analyse ground state effects of Cs atoms excited by laser light and placed in a magnetic field that was scanned around zero. The advantage of using the ETC is the possibility to separate the hf transitions, which are overlapped in ordinary cells, as a result...

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Hauptverfasser:	Atvars, A., Auzinsh, M., Bluss, K., Andreeva, C., Cartaleva, S., Petrov, L., Sarkisyan, D., Varzhapetyan, T.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Atom lasers Atomic beams Atomic measurements Laser excitation Magnetic analysis Magnetic confinement Magnetic field measurement Magnetic resonance Magnetooptic effects Stationary state
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creator	Atvars, A. Auzinsh, M. Bluss, K. Andreeva, C. Cartaleva, S. Petrov, L. Sarkisyan, D. Varzhapetyan, T.
description	An extremely thin cell (ETC) was used to analyse ground state effects of Cs atoms excited by laser light and placed in a magnetic field that was scanned around zero. The advantage of using the ETC is the possibility to separate the hf transitions, which are overlapped in ordinary cells, as a result of the spatial anisotropy of the atom-light interaction. Cs atoms were irradiated by circularly/linearly polarized light at lambda~852 nm, and the dependence of absorption on the external magnetic field was measured.
doi_str_mv	10.1109/CLEOE-IQEC.2007.4386933
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Atom lasers Atomic beams Atomic measurements Laser excitation Magnetic analysis Magnetic confinement Magnetic field measurement Magnetic resonance Magnetooptic effects Stationary state
title	Bright magneto-optical resonance sign reversal in Cs vapour confined in an extremely thin cell
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