Design of atomic clock cavity based on a loop-gap geometry and modified boundary conditions

Ivanov, Anton E; Affolderbach, Christoph; Mileti, Gaetano; Skrivervik, Anja K

doi:10.1017/S1759078717000691

Design of atomic clock cavity based on a loop-gap geometry and modified boundary conditions

Author(s)

Ivanov, Anton E

Affolderbach, Christoph

Laboratoire temps-fréquence

Mileti, Gaetano

Laboratoire temps-fréquence

Skrivervik, Anja K

Date issued

2017

In

International Journal of Microwave and Wireless Technologies, Cambridge University Press and the European Microwave Association

Vol

9

No

7

From page

1373

To page

1386

Subjects

Passive components and circuits RFID and sensors

Abstract

In this study, we investigate a concept that can be used to improve the magnetic field homogeneity in a microwave cavity applied in a novel, high-performance atomic frequency standard. We show that by modifying the boundary conditions in the case of a loop-gap geometry, a good improvement of the field homogeneity can be obtained. Such a design demonstrates high potential to improve the frequency stability; it is compact and hence suitable for a future generation of compact, high-precision frequency standards based on vapor cells and a pulsed optical pumping (POP) regime (POP atomic clocks).