Study on the clock-transition spectrum of cold171Yb ytterbium atoms

Xiaohang Zhang; Min Zhou; Ning Chen; Qi Gao; Chengyin Han; Yuan Yao; Peng Xu; Shangyan Li; Yilin Xu; Yanyi Jiang; Zhiyi Bi; Longsheng Ma; Xinye Xu

doi:10.1088/1612-2011/12/2/025501

Study on the clock-transition spectrum of cold¹⁷¹Yb ytterbium atoms

Xiaohang Zhang
, Min Zhou
, Ning Chen
, Qi Gao
, Chengyin Han
, Yuan Yao
, Peng Xu
, Shangyan Li
, Yilin Xu
, Yanyi Jiang
, Zhiyi Bi
, Longsheng Ma
, Xinye Xu

Institute for Advanced Study in Precision Spectroscopy

East China Normal University

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

16 Scopus citations

Abstract

We present a detailed study of the clock-transition spectrum of cold ¹⁷¹Yb ytterbium atoms in a 1D optical lattice. A typical clock-transition spectrum with a carrier-sideband structure is observed. After minimizing the power broadening effect and compensating the stray magnetic field, the carrier linewidth is narrowed to about 16 Hz for a 60 ms interrogation time. By increasing the interrogation time to 150 ms, the linewidth is further reduced to 6.8 Hz. By applying the bias magnetic field parallel to the clock-laser polarization, a two-peak spectrum corresponding to two π transitions is obtained. Finally, spin polarization of atoms to a single desired Zeeman sublevel of the ground state is also demonstrated. The presented results will be very useful for developing better optical lattice clocks.

Original language	English
Article number	025501
Journal	Laser Physics Letters
Volume	12
Issue number	2
DOIs	https://doi.org/10.1088/1612-2011/12/2/025501
State	Published - 1 Feb 2015

Keywords

Clock-transition spectrum
Optical lattices
Spin polarization
Zeeman shifts

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10.1088/1612-2011/12/2/025501

Cite this

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title = "Study on the clock-transition spectrum of cold171Yb ytterbium atoms",

abstract = "We present a detailed study of the clock-transition spectrum of cold 171Yb ytterbium atoms in a 1D optical lattice. A typical clock-transition spectrum with a carrier-sideband structure is observed. After minimizing the power broadening effect and compensating the stray magnetic field, the carrier linewidth is narrowed to about 16 Hz for a 60 ms interrogation time. By increasing the interrogation time to 150 ms, the linewidth is further reduced to 6.8 Hz. By applying the bias magnetic field parallel to the clock-laser polarization, a two-peak spectrum corresponding to two π transitions is obtained. Finally, spin polarization of atoms to a single desired Zeeman sublevel of the ground state is also demonstrated. The presented results will be very useful for developing better optical lattice clocks.",

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T1 - Study on the clock-transition spectrum of cold171Yb ytterbium atoms

AU - Zhang, Xiaohang

AU - Zhou, Min

AU - Chen, Ning

AU - Gao, Qi

AU - Han, Chengyin

AU - Yao, Yuan

AU - Xu, Peng

AU - Li, Shangyan

AU - Xu, Yilin

AU - Jiang, Yanyi

AU - Bi, Zhiyi

AU - Ma, Longsheng

AU - Xu, Xinye

PY - 2015/2/1

Y1 - 2015/2/1

N2 - We present a detailed study of the clock-transition spectrum of cold 171Yb ytterbium atoms in a 1D optical lattice. A typical clock-transition spectrum with a carrier-sideband structure is observed. After minimizing the power broadening effect and compensating the stray magnetic field, the carrier linewidth is narrowed to about 16 Hz for a 60 ms interrogation time. By increasing the interrogation time to 150 ms, the linewidth is further reduced to 6.8 Hz. By applying the bias magnetic field parallel to the clock-laser polarization, a two-peak spectrum corresponding to two π transitions is obtained. Finally, spin polarization of atoms to a single desired Zeeman sublevel of the ground state is also demonstrated. The presented results will be very useful for developing better optical lattice clocks.

AB - We present a detailed study of the clock-transition spectrum of cold 171Yb ytterbium atoms in a 1D optical lattice. A typical clock-transition spectrum with a carrier-sideband structure is observed. After minimizing the power broadening effect and compensating the stray magnetic field, the carrier linewidth is narrowed to about 16 Hz for a 60 ms interrogation time. By increasing the interrogation time to 150 ms, the linewidth is further reduced to 6.8 Hz. By applying the bias magnetic field parallel to the clock-laser polarization, a two-peak spectrum corresponding to two π transitions is obtained. Finally, spin polarization of atoms to a single desired Zeeman sublevel of the ground state is also demonstrated. The presented results will be very useful for developing better optical lattice clocks.

KW - Clock-transition spectrum

KW - Optical lattices

KW - Spin polarization

KW - Zeeman shifts

UR - https://www.scopus.com/pages/publications/84921717502

U2 - 10.1088/1612-2011/12/2/025501

DO - 10.1088/1612-2011/12/2/025501

M3 - 文章

AN - SCOPUS:84921717502

SN - 1612-2011

VL - 12

JO - Laser Physics Letters

JF - Laser Physics Letters

IS - 2

M1 - 025501

ER -

Study on the clock-transition spectrum of cold¹⁷¹Yb ytterbium atoms

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Keywords

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