Litcius/Paper detail

Improvement of spin polarization spatial uniformity in optically pumped atomic magnetometers based on counter-propagating pump beams and atomic diffusion

Junpeng Zhao, Gang Liu, Jixi Lu, Ming Ding, Yanning Ma, Jie Ji, Ke Yang, Danyue Ma, Bozheng Xing, Ning Zhang, Chang Sun, Bangcheng Han

2020Measurement Science and Technology45 citationsDOI

Abstract

Abstract In an optically pumped alkali vapor cell with a high density of atoms, the attenuation of the pump light generates a spatially non-uniform distribution of the electronic spin polarization of alkali atoms, which is detrimental to biomagnetism applications of magnetometers as well as the hyperpolarization of noble gas atoms. Therefore, in this study, we propose a new scheme to generate a nearly uniform, unsaturated spin polarization region based on counter-propagating pump beams and atomic diffusion. A finite element method-based simulation is used to demonstrate the three-dimensional distribution of the spin polarization in a spherical cell. The effects of cell temperature and pump light power on the homogeneity of the spin polarization are studied. The distribution of spin polarization near the center of the cell is experimentally measured and a 1 cm uniform spin polarization region is achieved in the center of the cell. The uniformity of spin polarization in the center region of the cell increased by 50% compared with single beam pumping. The advantage of our proposed scheme is that it can generate an unsaturated uniform region of spin polarization in the center of a cell using a single species of alkali atoms.

Topics & Concepts

Polarization (electrochemistry)Optical pumpingSpin polarizationHyperpolarization (physics)MagnetometerAtomic physicsPolarization rotatorMaterials scienceCircular polarizationSpin diffusionOpticsPhysicsMagnetic fieldMolecular physicsLaserElectronNuclear magnetic resonanceCondensed matter physicsChemistryBirefringenceQuantum mechanicsNuclear magnetic resonance spectroscopyMicrostripFerromagnetismPhysical chemistryAtomic and Subatomic Physics ResearchQuantum optics and atomic interactionsCold Atom Physics and Bose-Einstein Condensates