A hertz-linewidth ultrastable diode laser system for clock transition detection of strontium atoms

Ye Li; Yi Ge Lin; Qiang Wang; Shao Kai Wang; Yang Zhao; Fei Meng; Bai Ke Lin; Jian Ping Cao; Tian Chu Li; Zhan Jun Fang; Er Jun Zang

doi:10.1088/0256-307X/31/2/024207

A hertz-linewidth ultrastable diode laser system for clock transition detection of strontium atoms

Ye Li^*, Yi Ge Lin, Qiang Wang, Shao Kai Wang, Yang Zhao, Fei Meng, Bai Ke Lin, Jian Ping Cao, Tian Chu Li, Zhan Jun Fang, Er Jun Zang

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

The frequencies of two 698 nm external cavity diode lasers (ECDLs) are locked separately to two independently located ultrahigh finesse optical resonant cavities with the Pound - Drever - Hall technique. The linewidth of each ECDL is measured to be ∼4.6 Hz by their beating and the fractional frequency stability below 5 × 10^-15 between 1 s to 10 s averaging time. Another 698 nm laser diode is injection locked to one of the cavity-stabilized ECDLs with a fixed frequency offset for power amplification while maintaining its linewidth and frequency characteristics. The frequency drift is ∼1 Hz/s measured by a femtosecond optical frequency comb based on erbium fiber. The output of the injection slave laser is delivered to the magneto-optical trap of a Sr optical clock through a 10-m-long single mode polarization maintaining fiber with an active fiber noise cancelation technique to detect the clock transition of Sr atoms.

Original language	English
Article number	024207
Journal	Chinese Physics Letters
Volume	31
Issue number	2
DOIs	https://doi.org/10.1088/0256-307X/31/2/024207
Publication status	Published - Feb 2014
Externally published	Yes

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title = "A hertz-linewidth ultrastable diode laser system for clock transition detection of strontium atoms",

abstract = "The frequencies of two 698 nm external cavity diode lasers (ECDLs) are locked separately to two independently located ultrahigh finesse optical resonant cavities with the Pound - Drever - Hall technique. The linewidth of each ECDL is measured to be ∼4.6 Hz by their beating and the fractional frequency stability below 5 × 10-15 between 1 s to 10 s averaging time. Another 698 nm laser diode is injection locked to one of the cavity-stabilized ECDLs with a fixed frequency offset for power amplification while maintaining its linewidth and frequency characteristics. The frequency drift is ∼1 Hz/s measured by a femtosecond optical frequency comb based on erbium fiber. The output of the injection slave laser is delivered to the magneto-optical trap of a Sr optical clock through a 10-m-long single mode polarization maintaining fiber with an active fiber noise cancelation technique to detect the clock transition of Sr atoms.",

author = "Ye Li and Lin, {Yi Ge} and Qiang Wang and Wang, {Shao Kai} and Yang Zhao and Fei Meng and Lin, {Bai Ke} and Cao, {Jian Ping} and Li, {Tian Chu} and Fang, {Zhan Jun} and Zang, {Er Jun}",

year = "2014",

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doi = "10.1088/0256-307X/31/2/024207",

language = "English",

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T1 - A hertz-linewidth ultrastable diode laser system for clock transition detection of strontium atoms

AU - Li, Ye

AU - Lin, Yi Ge

AU - Wang, Qiang

AU - Wang, Shao Kai

AU - Zhao, Yang

AU - Meng, Fei

AU - Lin, Bai Ke

AU - Cao, Jian Ping

AU - Li, Tian Chu

AU - Fang, Zhan Jun

AU - Zang, Er Jun

PY - 2014/2

Y1 - 2014/2

N2 - The frequencies of two 698 nm external cavity diode lasers (ECDLs) are locked separately to two independently located ultrahigh finesse optical resonant cavities with the Pound - Drever - Hall technique. The linewidth of each ECDL is measured to be ∼4.6 Hz by their beating and the fractional frequency stability below 5 × 10-15 between 1 s to 10 s averaging time. Another 698 nm laser diode is injection locked to one of the cavity-stabilized ECDLs with a fixed frequency offset for power amplification while maintaining its linewidth and frequency characteristics. The frequency drift is ∼1 Hz/s measured by a femtosecond optical frequency comb based on erbium fiber. The output of the injection slave laser is delivered to the magneto-optical trap of a Sr optical clock through a 10-m-long single mode polarization maintaining fiber with an active fiber noise cancelation technique to detect the clock transition of Sr atoms.

AB - The frequencies of two 698 nm external cavity diode lasers (ECDLs) are locked separately to two independently located ultrahigh finesse optical resonant cavities with the Pound - Drever - Hall technique. The linewidth of each ECDL is measured to be ∼4.6 Hz by their beating and the fractional frequency stability below 5 × 10-15 between 1 s to 10 s averaging time. Another 698 nm laser diode is injection locked to one of the cavity-stabilized ECDLs with a fixed frequency offset for power amplification while maintaining its linewidth and frequency characteristics. The frequency drift is ∼1 Hz/s measured by a femtosecond optical frequency comb based on erbium fiber. The output of the injection slave laser is delivered to the magneto-optical trap of a Sr optical clock through a 10-m-long single mode polarization maintaining fiber with an active fiber noise cancelation technique to detect the clock transition of Sr atoms.

UR - http://www.scopus.com/inward/record.url?scp=84893572473&partnerID=8YFLogxK

U2 - 10.1088/0256-307X/31/2/024207

DO - 10.1088/0256-307X/31/2/024207

M3 - Article

AN - SCOPUS:84893572473

SN - 0256-307X

VL - 31

JO - Chinese Physics Letters

JF - Chinese Physics Letters

IS - 2

M1 - 024207

ER -

A hertz-linewidth ultrastable diode laser system for clock transition detection of strontium atoms

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