论文标题
平面纳米腔中的集体偶极偶极相互作用
Collective dipole-dipole interactions in planar nanocavities
论文作者
论文摘要
原子合奏的集体响应是由其宏观环境塑造的。我们证明了这种效果在光线通过限制在平面纳米腔内的热rubidium蒸气中的近谐声传播中。我们的模型揭示了密度依赖性线的变化和宽度,而不是连续的电动力学模型,这些模型具有腔宽度,并且在最近的实验中已经观察到。我们预测,这些振荡的幅度可以通过修改腔体技巧的涂层来控制。
The collective response of an atomic ensemble is shaped by its macroscopic environment. We demonstrate this effect in the near-resonant transmission of light through a thermal rubidium vapor confined in a planar nanocavity. Our model reveals density-dependent line shifts and broadenings beyond continuous electrodynamics models that oscillate with cavity width and have been observed in recent experiments. We predict that the amplitudes of these oscillations can be controlled by coatings that modify the cavity's Finesse.
