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Design of atomic clock cavity based on a loop-gap geometry and modified boundary conditions
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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).
- Subjects :
- Physics
Atomic frequency standard
Field homogeneity
Geometry
01 natural sciences
Atomic clock
Magnetic field
010309 optics
Optical pumping
0103 physical sciences
Homogeneity (physics)
Passive components and circuits
RFID and sensors
Boundary value problem
Electrical and Electronic Engineering
010306 general physics
Microwave cavity
Subjects
Details
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....0a0f69d8c2ae02f490e9eee11fc75af1