通过自由空间中原子阵列的双稳光传输

C. Parmee, J. Ruostekoski
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引用次数: 11

摘要

我们确定光通过平面原子阵列的传输超过低光强的限制,显示光学双稳在平均场制度。我们发展了一个理论来描述本征光学双稳性,该理论完全由自由空间中的共振偶极子-偶极子相互作用支持,显示了双稳光振幅如何表现出强合作和弱单原子响应,以及它们如何依赖于潜在的低光强集体激发本征模式。强调了该理论与腔内光学双稳性的相似性,而原子之间的重复光散射承担了腔镜的作用。我们的数值和分析估计显示了阵列的消光、反射率和群延迟的急剧变化,入射光完全熄灭直至远超过低光强极限的临界强度。我们的分析为具有协同响应的密集原子系综的集体非线性光学铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bistable optical transmission through arrays of atoms in free space
We determine the transmission of light through a planar atomic array beyond the limit of low light intensity that displays optical bistability in the mean-field regime. We develop a theory describing the intrinsic optical bistability, which is supported purely by resonant dipole-dipole interactions in free space, showing how bistable light amplitudes exhibit both strong cooperative and weak single-atom responses and how they depend on the underlying low light intensity collective excitation eigenmodes. Similarities of the theory with optical bistability in cavities are highlighted, while recurrent light scattering between atoms takes on the role of cavity mirrors. Our numerics and analytic estimates show a sharp variation in the extinction, reflectivity, and group delays of the array, with the incident light completely extinguished up to a critical intensity well beyond the low light intensity limit. Our analysis paves a way for collective nonlinear optics with cooperatively responding dense atomic ensembles.
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