Direct measurement of isotope shifts in the barium 6s2 S0 1 -5d6p D1 o 3 transition

Jungwoo Choi; Eunhwi Lee; Dahyun Yum; Kyungwon An; Junki Kim

doi:10.1103/PhysRevA.110.032812

Direct measurement of isotope shifts in the barium 6s2 S0 1 -5d6p D1 o 3 transition

Jungwoo Choi
, Eunhwi Lee
, Dahyun Yum
, Kyungwon An
, Junki Kim

SKKU Advanced Institute of Nano Technology (SAINT)

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We report the direct measurement of isotope shifts of the barium 6s2 S01-5d6pD1o3 413-nm electric quadrupole transition, which is utilized for efficient barium ion trapping via photoionization using a single coherent light source. The measured isotope shifts relative to Ba138 are 392.9±0.9MHz, 178.1±0.8MHz, 401.4±1.2MHz, and 124.3±1.3MHz for isotopes with atomic numbers 137, 136, 135, and 134, respectively. We verify the measured isotopes with King plot analysis and compare the result with the formerly known shifts inferred from previous studies on neighboring transitions. The results can be used for efficient isotope selective loading of low-abundant barium ions, while careful suppression of line broadening is required for successful isotopic selectivity.

Original language	English
Article number	032812
Journal	Physical Review A
Volume	110
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevA.110.032812
State	Published - Sep 2024

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10.1103/PhysRevA.110.032812

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title = "Direct measurement of isotope shifts in the barium 6s2 S0 1 -5d6p D1 o 3 transition",

abstract = "We report the direct measurement of isotope shifts of the barium 6s2 S01-5d6pD1o3 413-nm electric quadrupole transition, which is utilized for efficient barium ion trapping via photoionization using a single coherent light source. The measured isotope shifts relative to Ba138 are 392.9±0.9MHz, 178.1±0.8MHz, 401.4±1.2MHz, and 124.3±1.3MHz for isotopes with atomic numbers 137, 136, 135, and 134, respectively. We verify the measured isotopes with King plot analysis and compare the result with the formerly known shifts inferred from previous studies on neighboring transitions. The results can be used for efficient isotope selective loading of low-abundant barium ions, while careful suppression of line broadening is required for successful isotopic selectivity.",

author = "Jungwoo Choi and Eunhwi Lee and Dahyun Yum and Kyungwon An and Junki Kim",

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T1 - Direct measurement of isotope shifts in the barium 6s2 S0 1 -5d6p D1 o 3 transition

AU - Choi, Jungwoo

AU - Lee, Eunhwi

AU - Yum, Dahyun

AU - An, Kyungwon

AU - Kim, Junki

PY - 2024/9

Y1 - 2024/9

N2 - We report the direct measurement of isotope shifts of the barium 6s2 S01-5d6pD1o3 413-nm electric quadrupole transition, which is utilized for efficient barium ion trapping via photoionization using a single coherent light source. The measured isotope shifts relative to Ba138 are 392.9±0.9MHz, 178.1±0.8MHz, 401.4±1.2MHz, and 124.3±1.3MHz for isotopes with atomic numbers 137, 136, 135, and 134, respectively. We verify the measured isotopes with King plot analysis and compare the result with the formerly known shifts inferred from previous studies on neighboring transitions. The results can be used for efficient isotope selective loading of low-abundant barium ions, while careful suppression of line broadening is required for successful isotopic selectivity.

AB - We report the direct measurement of isotope shifts of the barium 6s2 S01-5d6pD1o3 413-nm electric quadrupole transition, which is utilized for efficient barium ion trapping via photoionization using a single coherent light source. The measured isotope shifts relative to Ba138 are 392.9±0.9MHz, 178.1±0.8MHz, 401.4±1.2MHz, and 124.3±1.3MHz for isotopes with atomic numbers 137, 136, 135, and 134, respectively. We verify the measured isotopes with King plot analysis and compare the result with the formerly known shifts inferred from previous studies on neighboring transitions. The results can be used for efficient isotope selective loading of low-abundant barium ions, while careful suppression of line broadening is required for successful isotopic selectivity.

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U2 - 10.1103/PhysRevA.110.032812

DO - 10.1103/PhysRevA.110.032812

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JO - Physical Review A

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Direct measurement of isotope shifts in the barium 6s2 S0 1 -5d6p D1 o 3 transition

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