Al + 27 Quantum-Logic Clock with a Systematic Uncertainty below 10 − 18

We describe an optical atomic clock based on quantum-logic spectroscopy of the S01↔P30 transition in Al+27 with a systematic uncertainty of 9.4×10−19 and a frequency stability of 1.2×10−15/τ. A Mg+25 ion is simultaneously trapped with the Al+27 ion and used for sympathetic cooling and state readout....

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Veröffentlicht in:	Physical review letters 2019-07, Vol.123 (3), p.1, Article 033201
Hauptverfasser:	Brewer, S. M., Chen, J.-S., Hankin, A. M., Clements, E. R., Chou, C. W., Wineland, D. J., Hume, D. B., Leibrandt, D. R.
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Sprache:	eng
Schlagworte:	Atomic clocks Black body radiation Frequency stability Three dimensional motion Uncertainty Zeeman effect
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container_title	Physical review letters
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creator	Brewer, S. M. Chen, J.-S. Hankin, A. M. Clements, E. R. Chou, C. W. Wineland, D. J. Hume, D. B. Leibrandt, D. R.
description	We describe an optical atomic clock based on quantum-logic spectroscopy of the S01↔P30 transition in Al+27 with a systematic uncertainty of 9.4×10−19 and a frequency stability of 1.2×10−15/τ. A Mg+25 ion is simultaneously trapped with the Al+27 ion and used for sympathetic cooling and state readout. Improvements in a new trap have led to reduced secular motion heating, compared to previous Al+27 clocks, enabling clock operation with ion secular motion near the three-dimensional ground state. Operating the clock with a lower trap drive frequency has reduced excess micromotion compared to previous Al+27 clocks. Both of these improvements have led to a reduced time-dilation shift uncertainty. Other systematic uncertainties including those due to blackbody radiation and the second-order Zeeman effect have also been reduced.
doi_str_mv	10.1103/PhysRevLett.123.033201
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subjects	Atomic clocks Black body radiation Frequency stability Three dimensional motion Uncertainty Zeeman effect
title	Al + 27 Quantum-Logic Clock with a Systematic Uncertainty below 10 − 18
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