三电子原子6Li D线跃迁绝对频率的精密测量

Yang Rui; Yue Long Wu; Rui Li; Hai Bin Wu

doi:10.1360/SSPMA-2020-0483

三电子原子⁶Li D线跃迁绝对频率的精密测量

Translated title of the contribution: Precise absolute frequency measurement of three-electron ⁶Li atom D-line transitions

Yang Rui
, Yue Long Wu
, Rui Li
, Hai Bin Wu^*

^*Corresponding author for this work

Institute for Advanced Study in Precision Spectroscopy

East China Normal University

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

2 Scopus citations

Abstract

We achieve the photon shot-noise limited optical spectroscopy of ⁶Li cold atoms by developing a heterodyne detection technique, under the condition of extremely low optical power density (below 10−³ saturation intensity) of probe beam. We establish a transport chain of frequency stability based on an optical frequency comb, and achieve absolute frequencies measurement of D₁ lines with an uncertainty of about 1 kHz, which is one order of magnitude more accurate than previous measurements. The 2P fine structure splitting of ⁶Li and the hyperfine splitting of 2P₁/₂ are 10052.7804(18) and 26.1031(14) MHz, respectively, in agreement with recent theoretical calculations. Our results could provide a benchmark to test the theory at the higher precision and help to resolve large discrepancies among previous experiments.

Translated title of the contribution	Precise absolute frequency measurement of three-electron ⁶Li atom D-line transitions
Original language	Chinese (Traditional)
Article number	074209
Journal	Scientia Sinica: Physica, Mechanica et Astronomica
Volume	51
Issue number	7
DOIs	https://doi.org/10.1360/SSPMA-2020-0483
State	Published - Jul 2021

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@article{998dbde04f51428c979d225164436a8d,

title = "三电子原子6Li D线跃迁绝对频率的精密测量",

abstract = "We achieve the photon shot-noise limited optical spectroscopy of 6Li cold atoms by developing a heterodyne detection technique, under the condition of extremely low optical power density (below 10−3 saturation intensity) of probe beam. We establish a transport chain of frequency stability based on an optical frequency comb, and achieve absolute frequencies measurement of D1 lines with an uncertainty of about 1 kHz, which is one order of magnitude more accurate than previous measurements. The 2P fine structure splitting of 6Li and the hyperfine splitting of 2P1/2 are 10052.7804(18) and 26.1031(14) MHz, respectively, in agreement with recent theoretical calculations. Our results could provide a benchmark to test the theory at the higher precision and help to resolve large discrepancies among previous experiments.",

keywords = "Absolute frequency measurement, Cold atoms, Shot noise limit",

author = "Yang Rui and Wu, \{Yue Long\} and Rui Li and Wu, \{Hai Bin\}",

note = "Publisher Copyright: {\textcopyright} 2021.",

year = "2021",

month = jul,

doi = "10.1360/SSPMA-2020-0483",

language = "繁体中文",

volume = "51",

journal = "Scientia Sinica: Physica, Mechanica et Astronomica",

issn = "1674-7275",

publisher = "Science Press ",

number = "7",

}

TY - JOUR

T1 - 三电子原子6Li D线跃迁绝对频率的精密测量

AU - Rui, Yang

AU - Wu, Yue Long

AU - Li, Rui

AU - Wu, Hai Bin

PY - 2021/7

Y1 - 2021/7

N2 - We achieve the photon shot-noise limited optical spectroscopy of 6Li cold atoms by developing a heterodyne detection technique, under the condition of extremely low optical power density (below 10−3 saturation intensity) of probe beam. We establish a transport chain of frequency stability based on an optical frequency comb, and achieve absolute frequencies measurement of D1 lines with an uncertainty of about 1 kHz, which is one order of magnitude more accurate than previous measurements. The 2P fine structure splitting of 6Li and the hyperfine splitting of 2P1/2 are 10052.7804(18) and 26.1031(14) MHz, respectively, in agreement with recent theoretical calculations. Our results could provide a benchmark to test the theory at the higher precision and help to resolve large discrepancies among previous experiments.

AB - We achieve the photon shot-noise limited optical spectroscopy of 6Li cold atoms by developing a heterodyne detection technique, under the condition of extremely low optical power density (below 10−3 saturation intensity) of probe beam. We establish a transport chain of frequency stability based on an optical frequency comb, and achieve absolute frequencies measurement of D1 lines with an uncertainty of about 1 kHz, which is one order of magnitude more accurate than previous measurements. The 2P fine structure splitting of 6Li and the hyperfine splitting of 2P1/2 are 10052.7804(18) and 26.1031(14) MHz, respectively, in agreement with recent theoretical calculations. Our results could provide a benchmark to test the theory at the higher precision and help to resolve large discrepancies among previous experiments.

KW - Absolute frequency measurement

KW - Cold atoms

KW - Shot noise limit

UR - https://www.scopus.com/pages/publications/85106599920

U2 - 10.1360/SSPMA-2020-0483

DO - 10.1360/SSPMA-2020-0483

M3 - 文章

AN - SCOPUS:85106599920

SN - 1674-7275

VL - 51

JO - Scientia Sinica: Physica, Mechanica et Astronomica

JF - Scientia Sinica: Physica, Mechanica et Astronomica

IS - 7

M1 - 074209

ER -

三电子原子⁶Li D线跃迁绝对频率的精密测量

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