Lifetime-Limited Interrogation of Two Independent 27 Al + Clocks Using Correlation Spectroscopy

Laser decoherence limits the stability of optical clocks by broadening the observable resonance linewidths and adding noise during the dead time between clock probes. Correlation spectroscopy avoids these limitations by measuring correlated atomic transitions between two ensembles, which provides a...

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Published in:Physical review letters 2020-12, Vol.125 (24), p.1
Main Authors: Clements, Ethan R, Kim, May E, Cui, Kaifeng, Hankin, Aaron M, Brewer, Samuel M, Valencia, Jose, Chen, Jwo-Sy, Chou, Chin-Wen, Leibrandt, David R, Hume, David B
Format: Article
Language:English
Subjects:
Clocks
Correlation analysis
Interrogation
Noise
Noise measurement
Spectrum analysis
Stability
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container_issue 24
container_start_page 1
container_title Physical review letters
container_volume 125
creator Clements, Ethan R
Kim, May E
Cui, Kaifeng
Hankin, Aaron M
Brewer, Samuel M
Valencia, Jose
Chen, Jwo-Sy
Chou, Chin-Wen
Leibrandt, David R
Hume, David B
description Laser decoherence limits the stability of optical clocks by broadening the observable resonance linewidths and adding noise during the dead time between clock probes. Correlation spectroscopy avoids these limitations by measuring correlated atomic transitions between two ensembles, which provides a frequency difference measurement independent of laser noise. Here, we apply this technique to perform stability measurements between two independent clocks based on the 1S0 ↔ 3P0 transition in 27 Al+. By stabilizing the dominant sources of differential phase noise between the two clocks, we observe coherence between them during synchronous Ramsey interrogations as long as 8 s at a frequency of 1.12 × 1015 Hz . The observed contrast in the correlation spectroscopy signal is consistent with the 20.6 s 3P0 state lifetime and represents a measurement instability of ( 1.8 ± 0.5 ) × 10−16 / √ τ / s for averaging periods longer than the probe duration when dead time is negligible.
doi_str_mv 10.1103/PhysRevLett.125.243602
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subjects Clocks
Correlation analysis
Interrogation
Noise
Noise measurement
Spectrum analysis
Stability
title Lifetime-Limited Interrogation of Two Independent 27 Al + Clocks Using Correlation Spectroscopy
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