Frequency Detuning and Stabilization of a Diode Laser Using the Zeeman Shift of the Saturated Absorption Signal of Rubidium Atoms.
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We observed saturated absorption spectra of the <SUP>87</SUP>Rb atom under a magnetic field of several millitesla with a diode laser oscillating at 780 nm. The spectra were compared with the theoretical ones obtained on the basis of Nakayama's four-level model. We numerically computed Zeeman splittings of the 5<SUP>2</SUP>P<SUB>3/2</SUB> excited state of the atom. As the magnetic field increased to 5 mT, the absorption peak of the F=2→F'=3 transition shifted almost linearly up to about 62 MHz. The shift direction was reversed by changing the polarization combination of the pump and probe lasers. The measured frequency stability, when the laser was locked at the absorption peak, was better than σ<SUB>y</SUB>(τ)= 1 ×10<SUP>-11</SUP>τ<SUP>-1/2</SUP> for the sampling time of 0.01 s≤ τ≤ 10 s.
- 公益社団法人 応用物理学会の論文
公益社団法人 応用物理学会 | 論文
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