Optical pumping of the Zeeman components in the rubidium vapor. Školnik, G., Vujičić, N., & Ban, T. Optics Communications, 282(7):1326-1334, 4, 2009.
Optical pumping of the Zeeman components in the rubidium vapor [link]Website  abstract   bibtex   
We investigated the optical pumping of the Zeeman components of rubidium atoms, in the presence of the external magnetic field ranging from the geomagnetic up to 130 Gauss. Using the saturated absorption spectroscopy with linearly polarized pump and probe laser beams, the rubidium Doppler-free spectra at different magnetic field strengths were measured. The dips (negative intensity signals) in the saturated absorption spectra of the 87Rb hyperfine transition lines were observed. They come as a result of the alignment process induced by the incoherent population transfer due to the hyperfine optical pumping. By inspection of the dips for different magnetic field strengths we were able to conclude about the dynamics of the alignment process in the external magnetic field. Present work is a part of the investigations concerning the influence of the magnetic field on the velocity selective optical pumping of the rubidium atoms induced by femtosecond frequency comb [D. Aumiler, T. Ban, H. Skenderović, G. Pichler, Phys. Rev. Lett. 95 (2005) 233001; T. Ban, D. Aumiler, H. Skenderović, G. Pichler, Phys. Rev. A 73 (2006) 043407]. © 2008 Elsevier B.V. All rights reserved.
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 title = {Optical pumping of the Zeeman components in the rubidium vapor},
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 year = {2009},
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 pages = {1326-1334},
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 abstract = {We investigated the optical pumping of the Zeeman components of rubidium atoms, in the presence of the external magnetic field ranging from the geomagnetic up to 130 Gauss. Using the saturated absorption spectroscopy with linearly polarized pump and probe laser beams, the rubidium Doppler-free spectra at different magnetic field strengths were measured. The dips (negative intensity signals) in the saturated absorption spectra of the 87Rb hyperfine transition lines were observed. They come as a result of the alignment process induced by the incoherent population transfer due to the hyperfine optical pumping. By inspection of the dips for different magnetic field strengths we were able to conclude about the dynamics of the alignment process in the external magnetic field. Present work is a part of the investigations concerning the influence of the magnetic field on the velocity selective optical pumping of the rubidium atoms induced by femtosecond frequency comb [D. Aumiler, T. Ban, H. Skenderović, G. Pichler, Phys. Rev. Lett. 95 (2005) 233001; T. Ban, D. Aumiler, H. Skenderović, G. Pichler, Phys. Rev. A 73 (2006) 043407]. © 2008 Elsevier B.V. All rights reserved.},
 bibtype = {article},
 author = {Školnik, Gordana and Vujičić, Nataša and Ban, Ticijana},
 journal = {Optics Communications},
 number = {7}
}
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