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Analysis of atomic magnetometry using metasurface optics for balanced polarimetry

Xuting Yang, Meryem Benelajla, S. Carpenter, Jennifer T. Choy

2023Optics Express28 citationsDOIOpen Access PDF

Abstract

Atomic magnetometry is one of the most sensitive field-measurement techniques for biological, geo-surveying, and navigational applications. An essential process in atomic magnetometry is measurement of optical polarization rotation of a near-resonant beam due to its interaction with atomic spins under an external magnetic field. In this work, we present the design and analysis of a silicon-metasurface-based polarization beam splitter that have been tailored for operation in a rubidium magnetometer. The metasurface polarization beam splitter operates at a wavelength of 795 nm and has a transmission efficiency > 83% and a polarization extinction ratio > 20 dB. We show that these performance specifications are compatible with magnetometer operation in miniaturized vapor cells with sub-picotesla-level sensitivity and discuss the prospect of realizing compact, high-sensitivity atomic magnetometers with nanophotonic component integration.

Topics & Concepts

MagnetometerOpticsBeam splitterPolarization (electrochemistry)PolarimetryFaraday effectPhysicsNanophotonicsMagnetic fieldPolarizerOptoelectronicsMaterials scienceBirefringenceLaserPhysical chemistryQuantum mechanicsScatteringChemistryAtomic and Subatomic Physics ResearchQuantum optics and atomic interactionsCold Atom Physics and Bose-Einstein Condensates
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