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Optimization of Raman Cooling of 25Mg+ Ion to Ground Vibrational State in Linear Paul Trap

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Abstract

The sideband cooling method and its implementation on the Raman transition of 25Mg+ is presented. The process is numerically simulated under the conditions of experiments at the Lebedev Physical Institute. Laser pulse parameters are optimized to achieve the minimum average vibrational number over the times of Raman cooling of the order of several milliseconds.

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Acknowledgments

This study was supported by the Russian Science Foundation, project no. 19-12-00274.

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Authors and Affiliations

  1. Lebedev Physical Institute, Russian Academy of Sciences, 53 Leninskii Pr., Moscow, 119991, Russia

    P. L. Sidorov, K. Yu. Khabarova, I. V. Zalivako, A. S. Borisenko & I. A. Semerikov

Authors
  1. P. L. Sidorov
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  2. K. Yu. Khabarova
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  3. I. V. Zalivako
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  4. A. S. Borisenko
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  5. I. A. Semerikov
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Correspondence to P. L. Sidorov.

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Russian Text © P.L. Sidorov, K.Yu. Khabarova, I.V. Zalivako, A.S. Borisenko, I.A. Semerikov, 2019, published in Kratkie Soobshcheniya po Fizike, 2019, Vol. 46, No.4, pp. 46–53.

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Sidorov, P.L., Khabarova, K.Y., Zalivako, I.V. et al. Optimization of Raman Cooling of 25Mg+ Ion to Ground Vibrational State in Linear Paul Trap. Bull. Lebedev Phys. Inst. 46, 138–142 (2019). https://doi.org/10.3103/S1068335619040080

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  • DOI: https://doi.org/10.3103/S1068335619040080

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