Clock Precision beyond the Standard Quantum Limit at 10^-18 Level | JILA

Author	Y. Yang Maya Miklos Yee Tso Stella Kraus Joonseok Hur Jun Ye
Abstract	Optical atomic clocks with unrivaled precision and accuracy have advanced the frontier of precision measurement science and opened new avenues for exploring fundamental physics. A fundamental limitation on clock precision is the standard quantum limit (SQL), which stems from the uncorrelated projection noise of each atom. State-of-the-art optical lattice clocks interrogate large ensembles to minimize the SQL, but density-dependent frequency shifts pose challenges to scaling the atom number.
Year of Publication	2025
Date Published	2025-11
Journal Title	Phys. Rev. Lett.
Volume	135
Issue	19
Start Page or Article ID	193202
PDF	SqueezedClcok 1E-18_PRL2025.pdf1.26 MB
DOI	10.1103/6v93-whwq
URL	https://link.aps.org/doi/10.1103/6v93-whwq
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JILA PI	Jun Ye
Publication Highlights	Editor's Suggestion
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Associated Institutes	Q-SEnSE JILA-PFC
	Journal Article
JILA Topics	Atomic & Molecular Physics Laser Physics Precision Measurement Quantum Information Science & Technology
Publication Status	Published
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