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Cold atom clocks and their applications in precision measurements*

Shaoyang Dai, Fasong Zheng, K. Liu, Weiliang Chen, Yige Lin, Tianchu Li, Fang Fang

2020Chinese Physics B17 citationsDOI

Abstract

Cold atom clocks have made remarkable progresses in the last two decades and played critical roles in precision measurements. Primary Cs fountain frequency standards have achieved a total uncertainty of a few parts in 10 16 , and the best optical clock has reached a type B uncertainty below 10 −18 . Besides applications in the metrology, navigation, etc., ultra-stable and ultra-accurate atomic clocks have also become powerful tools in the basic scientific investigations. In this paper, we focus on the recent developments in the high-performance cold atomic clocks which can be used as frequency standards to calibrate atomic time scales. The basic principles, performances, and limitations of fountain clocks and optical clocks based on signal trapped ion or neutral atoms are summarized. Their applications in metrology and other areas are briefly introduced.

Topics & Concepts

MetrologyAtomic clockUltracold atomFountainAtom (system on chip)PhysicsSIGNAL (programming language)Computer scienceQuantum metrologyOpticsQuantum technologyQuantum mechanicsHistoryEmbedded systemOpen quantum systemArchaeologyQuantumProgramming languageAdvanced Frequency and Time StandardsAtomic and Subatomic Physics ResearchCardiovascular Syncope and Autonomic Disorders
Cold atom clocks and their applications in precision measurements* | Litcius