Voici les éléments 1 - 2 sur 2
Vignette d'image
Publication
Accès libre

Status and prospect of the Swiss continuous Cs fountain FoCS-2

, Jallageas, Antoine, Devenoges, Laurent, Petersen, Michael, Morel, Jacques, Bernier, Laurent-Guy, Thomann, Pierre, Südmeyer, Thomas

The continuous cesium fountain clock FoCS-2 at METAS presents many unique characteristics and challenges in comparison with standard pulsed fountain clocks. For several years FoCS-2 was limited by an unexplained frequency sensitivity on the velocity of the atoms, in the range of 140 · 10-15. Recent experiments allowed us to identify the origin of this problem as undesirable microwave surface currents circulating on the shield of the coaxial cables that feed the microwave cavity. A strong reduction of this effect was obtained by adding microwave absorbing coatings on the coaxial cables and absorbers inside of the vacuum chamber. This breakthrough opens the door to a true metrological validation of the fountain. A series of simulation tools have already been developed and proved their efficiency in the evaluation of some of the uncertainties of the continuous fountain. With these recent improvements, we are confident in the future demonstration of an uncertainty budget at the 10-15 level and below.

Vignette d'image
Publication
Accès libre

Measurement of the magnetic field profile in the atomic fountain clock FoCS-2 using Zeeman spectroscopy

, Devenoges, Laurent, Di Domenico, Gianni, Stefanov, André, Jallageas, Antoine, Morel, Jacques, Südmeyer, Thomas, Thomann, Pierre

We report the evaluation of the second-order Zeeman shift in the continuous atomic fountain clock FoCS-2. Because of its continuous operation and geometrical constraints, the methods used in pulsed fountains are not applicable. We use here time-resolved Zeeman spectroscopy to probe the magnetic field profile in the clock. Pulses of ac magnetic excitation allow us to spatially resolve the Zeeman frequency and to evaluate the Zeeman shift with a relative uncertainty smaller than 5 × 10−16.