Second-order effects in parametric-resonance magnetometers based on atomic alignment

IF 5.8 2区 物理与天体物理 Q1 OPTICS EPJ Quantum Technology Pub Date : 2020-05-07 DOI:10.1140/epjqt/s40507-020-00083-7
François Beato, Agustin Palacios-Laloy
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引用次数: 6

Abstract

Optically-pumped magnetometers (OPM) based on parametric resonance allow real-time tri-axial measurement of very small magnetic fields with a single optical access to the gas cell. Most of these magnetometers rely on circularly polarized pumping light. We focus here on the ones relying on linearly polarized light, yielding atomic alignment. For these magnetometers we investigate three second order effects which appear in the usual regimes of operation, so to clarify if they translate to metrological problems like systematic errors or increased noise. The first of these effects is the breakdown of the three-step approach when the optical beam has a large intensity. The second one is the breakdown of the rotating wave approximation when the frequencies of the RF fields are not much larger than the rates of other atomic processes. The third one is the tensor light-shift which appears when the light is slightly detuned from resonance. This work should help to clarify the accuracy reachable with OPM, which is an important question notably for medical imaging applications.

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基于原子排列的参数共振磁力计中的二阶效应
基于参数共振的光泵磁强计(OPM)允许实时三轴测量非常小的磁场,只需一个光学通道即可进入气室。这些磁力计大多依靠圆偏振泵浦光。我们这里关注的是那些依靠线偏振光产生原子排列的。对于这些磁力计,我们研究了在通常操作制度中出现的三种二阶效应,以便澄清它们是否转化为系统误差或噪声增加等计量问题。这些效应中的第一个是当光束强度较大时,三步法的失效。第二个是当射频场的频率并不比其他原子过程的速率大多少时,旋转波近似的击穿。第三个是张量光移,当光从共振中稍微失谐时出现。这项工作应该有助于澄清OPM可达到的准确性,这是一个重要的问题,特别是医学成像应用。
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来源期刊
EPJ Quantum Technology
EPJ Quantum Technology Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
7.70
自引率
7.50%
发文量
28
审稿时长
71 days
期刊介绍: Driven by advances in technology and experimental capability, the last decade has seen the emergence of quantum technology: a new praxis for controlling the quantum world. It is now possible to engineer complex, multi-component systems that merge the once distinct fields of quantum optics and condensed matter physics. EPJ Quantum Technology covers theoretical and experimental advances in subjects including but not limited to the following: Quantum measurement, metrology and lithography Quantum complex systems, networks and cellular automata Quantum electromechanical systems Quantum optomechanical systems Quantum machines, engineering and nanorobotics Quantum control theory Quantum information, communication and computation Quantum thermodynamics Quantum metamaterials The effect of Casimir forces on micro- and nano-electromechanical systems Quantum biology Quantum sensing Hybrid quantum systems Quantum simulations.
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