Quantitative evaluation of distributed cavity phase shifts to improve the accuracy of SYRTE FO2 (original) (raw)

Quantitative evaluation of distributed cavity phase shifts to improve the accuracy of SYRTE FO2

2011

Abstract

We report measurements and ab initio calculations of the distributed cavity phase (DCP) shifts of the LNE-SYRTE FO2 atomic fountain clock. The measurements and validated model provide the first complete and quantitative evaluation of the DCP shift in an atomic fountain, reducing the FO2 DCP uncertainty to ±8.4x10 -17 . Here we emphasize the experimental

Ruoxin Li hasn't uploaded this paper.

Let Ruoxin know you want this paper to be uploaded.

Ask for this paper to be uploaded.