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A novel approach to quantitative spectroscopy of atoms in a magnetic field and applications based on an atomic vapor cell with
4.D. Sarkisyan, A. Papoyan, T. Varzhapetyan, J. Alnis, K. Blush, and M. Auzinsh, J. Opt. A, Pure Appl. Opt. 6, S142 (2004);
4.The relative transition probability and magnetic sublevel energy simulation in the magnetic field are based on the eigenvalue and eigenvector dependence from the magnetic field calculation of the Hamilton matrix for the full hfs manifold.
6.D. Sarkisyan, T. Varzhapetyan, A. Sarkisyan, Yu. Malakyan, A. Papoyan, A. Lezama, D. Bloch, and M. Ducloy, Phys. Rev. A 69, 065802 (2004);
6.C. Andreeva, S. Cartaleva, L. Petrov, S. M. Saltiel, D. Sarkisyan, T. Varzhapetyan, D. Bloch, and M. Ducloy, Phys. Rev. A 76, 013837 (2007), and references therein;
6.A. Sargsyan, D. Sarkisyan, A. Papoyan, Y. Pashayan-Leroy, P. Moroshkin, A. Weis, A. Khanbekyan, E. Mariotti, and L. Moi, Laser Phys. 18, 749 (2008).
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