Manipulating optical absorption and polarization using microwave control in an atomic vapour

Journal of Physics: Photonics Pub Date : 2024-02-19 DOI:10.1088/2515-7647/ad2ac8
A. Tretiakov, Clinton A Potts, Ying-Ying Lu, John P Davis, Lindsay J. LeBlanc
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Abstract

The multiplicity of atomic states (and the transitions between them) offer an innate, coherent platform through which microwave and optical fields effectively interact. In an atomic vapour near room temperature, we combine optical and microwave fields to generate a macroscopic internal angular momentum among the atoms – an atomic polarization – at an arbitrary angle with respect to the optical (laser) beam. This geometric freedom enables microwave control over photonic degrees of freedom, which we use in two demonstrations: we can rotate linear polarization through several degrees, and we can control the absorption for specific transitions and polarizations, which has applications for microwave-to-optical transduction.
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利用微波控制原子蒸气中的光吸收和偏振
原子态的多重性(以及原子态之间的转换)提供了一个先天的相干平台,通过这个平台,微波场和光学场可以有效地相互作用。在接近室温的原子蒸气中,我们将光学场和微波场结合起来,在原子中产生相对于光学(激光)光束任意角度的宏观内角动量--原子偏振。这种几何自由度使微波能够控制光子自由度,我们在两个演示中使用了这种自由度:我们可以将线性偏振旋转几度,我们可以控制特定跃迁和偏振的吸收,这在微波-光学转换中具有应用价值。
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Journal of Physics: Photonics
Journal of Physics: Photonics
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