In this paper we present the current status in the realization of a new generation of high accuracy frequency standards at INRIM, whose relative frequency uncertainty is expected to achieve and possibly pass the 10-16 range. Currently we are developing a nitrogen cooled cryogenic Cs fountain and a dipole trap neutral Yb optical clock. This development will allow us to make an absolute measurement of the Yb clock frequency against a primary frequency reference in the low 10-16 range.
Lattice Yb Optical Clock and Cryogenic Cs Fountain at Inrim / F., Levi; D., Calonico; L., Lorini; C., Calosso; E., Bertacco; A., Godone; Costanzo, Giovanni Antonio - In: Frequency Standards and MetrologySTAMPA. - Pasadena : Lute Maleki, World Scientific, 2009. - ISBN 9789812838216. - pp. 228-232
Lattice Yb Optical Clock and Cryogenic Cs Fountain at Inrim
COSTANZO, Giovanni Antonio
2009
Abstract
In this paper we present the current status in the realization of a new generation of high accuracy frequency standards at INRIM, whose relative frequency uncertainty is expected to achieve and possibly pass the 10-16 range. Currently we are developing a nitrogen cooled cryogenic Cs fountain and a dipole trap neutral Yb optical clock. This development will allow us to make an absolute measurement of the Yb clock frequency against a primary frequency reference in the low 10-16 range.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2263758
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