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Cs microcell optical reference with frequency stability in the low 10<sup>−13</sup> range at 1 s

Anthony Gusching, Jacques Millo, Ivan Rýger, Rémy Vicarini, Moustafa Abdel Hafiz, Nicolas Passilly, Rodolphe Boudot

2023Optics Letters29 citationsDOI

Abstract

We describe a high-performance optical frequency reference based on dual-frequency sub-Doppler spectroscopy (DFSDS) using a Cs vapor microfabricated cell and an external-cavity diode laser at 895 nm. Measured against a reference optical signal extracted from a cavity-stabilized laser, the microcell-stabilized laser demonstrates an instability of 3 × 10 −13 at 1 s, in agreement with a phase noise of +40 dBrad 2 /Hz at 1-Hz offset frequency, and below 5 × 10 −14 at 10 2 s. The laser short-term stability limit is in good agreement with the intermodulation effect from the laser frequency noise. These results suggest that DFSDS is a valuable approach for the development of ultra-stable microcell-based optical standards.

Topics & Concepts

MicrocellOpticsLaserMaterials scienceLaser linewidthPhase noiseLaser Doppler vibrometerFrequency offsetDiodeSpectroscopyPhysicsOptoelectronicsLaser power scalingTelecommunicationsOrthogonal frequency-division multiplexingChannel (broadcasting)Quantum mechanicsComputer scienceAtomic and Subatomic Physics ResearchAdvanced Frequency and Time StandardsAdvanced Fiber Laser Technologies