低q腔中purcell增强单光子发射器诱导的光学透明度

D. Farfurnik, Harjot Singh, Zhouchen Luo, A. Bracker, S. Carter, E. Waks
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引用次数: 0

摘要

量子点耦合到高q腔可以诱导光学透明度,提供光子开关能力。然而,由于其受限的光学模式,光学进入这种腔可能是低效的。在这里,我们观察到由于反射光的破坏性干涉,量子点耦合到具有高效光学通道的腔(低q靶心腔)所引起的光学透明度为~ 80%。再加上量子点的光学寿命短至80ps,以及它们自旋的相干操纵能力,将这些量子点耦合到靶心腔所产生的透明度使它们在量子技术上很有前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical transparency induced by a largely Purcell-enhanced single photon emitter in a low-Q cavity
Quantum dots coupled to high-Q cavities can induce optical transparency that provides photon switching capabilities. However, the optical access to such cavities can be inefficient due to their restrictive optical modes. Here, we observe optical transparency of ∼ 80% induced by a quantum dot coupled to a cavity with an efficient optical access, the low-Q bullseye cavity, due to the destructive interference of reflected light. Together with optical lifetimes of quantum dots as short as 80 ps, and the coherent manipulation capabilities of their spin, the transparency induced by coupling these dots to bullseye cavities makes them promising for quantum technologies.
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