2012
DOI: 10.1364/oe.20.022034
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Direct comparison of a Ca^+ single-ion clock against a Sr lattice clock to verify the absolute frequency measurement

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Cited by 81 publications
(88 citation statements)
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“…Frequency comparisons of optical clocks have been realized mostly on-campus [2,3,[5][6][7][8][9] except for two cases: one is a comparison of a 87 Sr lattice clock at JILA against a neutral Ca clock at NIST with a 4-km-long optical fiber link [10] and the other is between two 87 Sr lattice clocks at NICT and the University of Tokyo (UT) using a 60 km-long optical fiber [11]. Optical fiber links are promising on continental scales as demonstrated up to 1840 km [12].…”
mentioning
confidence: 99%
“…Frequency comparisons of optical clocks have been realized mostly on-campus [2,3,[5][6][7][8][9] except for two cases: one is a comparison of a 87 Sr lattice clock at JILA against a neutral Ca clock at NIST with a 4-km-long optical fiber link [10] and the other is between two 87 Sr lattice clocks at NICT and the University of Tokyo (UT) using a 60 km-long optical fiber [11]. Optical fiber links are promising on continental scales as demonstrated up to 1840 km [12].…”
mentioning
confidence: 99%
“…In particular, 40 Ca + has been used in the field of quantum computing and quantum information [28,29,30,31,32,33], for atomic clocks and the frequency standard [34,35,3,2,1,36,37] and recently as a single-atom heat engine [38]. The spectrum of 40 Ca + has been also employed in the quest for drifts of the fine structure constant over a time span of many billion years [39,40].…”
Section: The 40 Ca + Ionmentioning
confidence: 99%
“…High-performance frequency standards is the technological result of this precision leading to applications such as network synchronization and GPS [1]. This technology is enabled by atomic clocks [2,3]. High accuracy has implications in other fields of physics such as radioastronomy (verylong-baseline interferometry) [4], tests of general relativity [5], and particle physics [6].…”
Section: Introduction: Electronic Transitions and Spontaneous Emissiomentioning
confidence: 99%
“…9). Enfin, les premières comparaisons tout optique entre les horloges à réseau optique au strontium et au mercure LNE-SYRTE [26,35], le JILA (Colorado, États-unis) [36,37], la PTB (Allemagne) [29,30,38], l'Université de Tokyo (Japon) en 2006 et 2008 [39], le NICT (Japon) [40][41][42], le NMIJ (Japon) [43,44] et le NIM en 2015 (Chine) [45]. Un ajustement de ces mesures par une dérive linéaire dans le temps superposée à une variation sinusoïdale d'amplitude a calée sur la rotation de la Terre autour du soleil permet de contraindre la dérive du rapport de fréquence par d ln(ν Sr /ν Cs )/dt = −(1, 7 ± 0, 7) × 10 conduites au LNE-SYRTE permettent de s'affranchir des étalons micro-onde, et ainsi de démontrer une stabilité de fréquence dix fois meilleure, à quelques 10 −15 / √ τ.…”
Section: Comparaisons Locales D'horloges D'espèces Différentesunclassified