Noise characterization of an ultra-stable laser for optical clocks

We report on the development and performance evaluation of an ultra-stable laser for an 27Al+ optical clock. After a series of noise suppressions, especially the vibrational and temperature fluctuation noise, the 30 cm long cavity stabilized laser obtains a frequency instability of 1.3 × 10−16 @1 s....

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Veröffentlicht in:	Review of scientific instruments 2024-05, Vol.95 (5)
Hauptverfasser:	Wang, Zhiyuan, Ma, Zhiyu, Wei, Wenzhe, Chang, Jialu, Zhang, Jingxuan, Wu, Qiyue, Yuan, Wenhao, Deng, Ke, Lu, Zehuang, Zhang, Jie
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Sprache:	eng
Schlagworte:	Clocks Frequency stability Lasers Noise measurement Noise prediction Performance evaluation
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creator	Wang, Zhiyuan Ma, Zhiyu Wei, Wenzhe Chang, Jialu Zhang, Jingxuan Wu, Qiyue Yuan, Wenhao Deng, Ke Lu, Zehuang Zhang, Jie
description	We report on the development and performance evaluation of an ultra-stable laser for an 27Al+ optical clock. After a series of noise suppressions, especially the vibrational and temperature fluctuation noise, the 30 cm long cavity stabilized laser obtains a frequency instability of 1.3 × 10−16 @1 s. This result is predicted by noise summation and confirmed by the three-cornered hat method. The 27Al+ optical clock transition is also used to characterize the laser frequency noise, and consistent results are yielded. This is the first reported instance of using single ion optical clocks to measure the frequency noise of ultra-stable lasers, as far as we know. With the implementation of the ultra-stable clock laser, an ultra-narrow linewidth clock transition of 2.8 Hz is obtained.
doi_str_mv	10.1063/5.0204016
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After a series of noise suppressions, especially the vibrational and temperature fluctuation noise, the 30 cm long cavity stabilized laser obtains a frequency instability of 1.3 × 10−16 @1 s. This result is predicted by noise summation and confirmed by the three-cornered hat method. The 27Al+ optical clock transition is also used to characterize the laser frequency noise, and consistent results are yielded. This is the first reported instance of using single ion optical clocks to measure the frequency noise of ultra-stable lasers, as far as we know. 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After a series of noise suppressions, especially the vibrational and temperature fluctuation noise, the 30 cm long cavity stabilized laser obtains a frequency instability of 1.3 × 10−16 @1 s. This result is predicted by noise summation and confirmed by the three-cornered hat method. The 27Al+ optical clock transition is also used to characterize the laser frequency noise, and consistent results are yielded. This is the first reported instance of using single ion optical clocks to measure the frequency noise of ultra-stable lasers, as far as we know. 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subjects	Clocks Frequency stability Lasers Noise measurement Noise prediction Performance evaluation
title	Noise characterization of an ultra-stable laser for optical clocks
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