耦合少量发射体的损耗腔中中等驱动的非常规饱和效应

Therese Karmstrand, Benjamin Rousseaux, Anton Frisk Kockum, Timur Shegai, Göran Johansson
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引用次数: 0

摘要

最近的技术进步使高耗散腔-发射极系统中的强光-物质相互作用成为可能。然而,在这些由Tavis-Cummings模型很好地描述的系统中,可观的损失率使得许多理想的非线性效应(如饱和和光子封锁)的实现变得困难。在这里,我们提出了在Tavis-Cummings模型中发生的另一种效应:中等强度的谐振外驱动腔的非线性响应,它利用了大的腔耗散率。在这种情况下,当腔耦合到$N$发射器时,$(N+1)$-光子吸收过程占主导地位。我们详细探讨和描述了这种效应,并提供了由于发射器系综和外部驱动之间的破坏性干涉而产生这种效应的图片。我们发现观察到的效应的中心条件是大的协同性;即,腔体和发射极衰减率的乘积远小于腔体-发射极相互作用强度的平方。重要的是,这个条件不需要强耦合。我们还找到了产生这种效应的临界驱动强度的解析表达式。我们的结果具有量子态工程的潜力,例如,光子滤波,并可用于表征发射体数量未知的腔-发射体系统。特别是,我们的研究结果为在各种既不需要高质量腔也不需要强耦合的平台上研究独特的量子光学应用开辟了道路。
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Unconventional saturation effects at intermediate drive in a lossy cavity coupled to few emitters
Recent technological advancements have enabled strong light-matter interaction in highly dissipative cavity-emitter systems. However, in these systems, which are well described by the Tavis-Cummings model, the considerable loss rates render the realization of many desirable nonlinear effects, such as saturation and photon blockade, problematic. Here we present another effect occurring within the Tavis-Cummings model: A nonlinear response of the cavity for resonant external driving of intermediate strength, which makes use of large cavity dissipation rates. In this regime, $(N+1)$-photon absorption processes dominate when the cavity couples to $N$ emitters. We explore and characterize this effect in detail, and provide a picture of how the effect occurs due to destructive interference between the emitter ensemble and the external drive. We find that a central condition for the observed effect is large cooperativity; i.e., the product of the cavity and emitter decay rates is much smaller than the collective cavity-emitter interaction strength squared. Importantly, this condition does not require strong coupling. We also find an analytical expression for the critical drive strength at which the effect appears. Our results have potential for quantum state engineering, e.g., photon filtering, and could be used for the characterization of cavity-emitter systems where the number of emitters is unknown. In particular, our results open the way for investigations of unique quantum-optics applications in a variety of platforms that require neither high-quality cavities nor strong coupling.
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