Modified Faraday Rotation Method for Studying Cesium Atomic Lines in Strong Magnetic Fields


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A modified Faraday rotation method is developed using a nanocell filled with cesium vapor. Formed atomic lines have a spectral width 1.5–2 times narrower than those obtained by the Faraday rotation method. In magnetic fields of B = 5000–7000 G, all the atomic transitions of the Cs D2 lines, formed in the spectra, are spectrally resolved and identified. In particular, transitions that are forbidden at B = 0 G have been investigated, however, at certain values of the magnetic field, there is a gigantic increase in their probabilities. It is shown that the modified Faraday rotation method is convenient and efficient for high-resolution spectroscopy for Cs atoms. There is а good agreement between the experimental results and calculated values. The practical applications are also noted.

作者简介

A. Sargsyan

Institute for Physical Research, NAS of Armenia

Email: arevamiryan@gmail.com
亚美尼亚, Ashtarak

A. Tonoyan

Institute for Physical Research, NAS of Armenia

Email: arevamiryan@gmail.com
亚美尼亚, Ashtarak

G. Hakhumyan

Institute for Physical Research, NAS of Armenia

Email: arevamiryan@gmail.com
亚美尼亚, Ashtarak

A. Amiryan

Institute for Physical Research, NAS of Armenia; Université Bourgogne – Franche-Comté

编辑信件的主要联系方式.
Email: arevamiryan@gmail.com
亚美尼亚, Ashtarak; Dijon

P. Todorov

Institute of Electronics

Email: arevamiryan@gmail.com
保加利亚, Sofia

S. Cartaleva

Institute of Electronics

Email: arevamiryan@gmail.com
保加利亚, Sofia

D. Sarkisyan

Institute for Physical Research, NAS of Armenia

Email: arevamiryan@gmail.com
亚美尼亚, Ashtarak

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