Double resonance fequency light shift compensation in optically oriented laser-pumped alkali atoms

“…Graphs 1 and 2 corresponds the polarization of pumping light of σ-and σ+ types respectively. of single optical path (alkali vapor cell) for the tandem of magnetometers allowed us to eliminate the frequency fluctuations depending on the magnetic field and to investigate the laser source influence only [2,3]. Fig.…”

Frequency stability of miniature quantum magnetometer with laser pumping

“…Graphs 1 and 2 corresponds the polarization of pumping light of σ-and σ+ types respectively. of single optical path (alkali vapor cell) for the tandem of magnetometers allowed us to eliminate the frequency fluctuations depending on the magnetic field and to investigate the laser source influence only [2,3]. Fig.…”

Frequency stability of miniature quantum magnetometer with laser pumping

“…This method provides the magnetic fluctuations and light shift components compensation. 4 Further, Allan variance for the differential signal of the two quantum magnetometers was calculated by means of the Matlab program.…”

“…3 Theoretical and experimental researches have shown the ability to reduce the influence of the light frequency shift component compensation in the case of end-state magneto-dependent UFS-transitions (end-state resonance), which is not possible in the case of magneto-dependent 0-0-transition. 4 In the case of the atomic clock on end-state resonance, Zeeman transitions self-oscillating magnetometer can be selected to compensate the magnetic fluctuations in an external magnetic field. Hereby, the compensation of the magneto-dependent UFS end-state resonance magnetic dependence and the additional frequency destabilizing factors of the atomic clock is provided.…”

Short-scale atomic clock based on the quantum magnetometers system

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