Maxim Makhonin, Anthonin Delphan, Kok Wee Song, Paul Walker, Tommi Isoniemi, Peter Claronino, Konstantinos Orfanakis, Sai Kiran Rajendran, Hamid Ohadi, Julian Heckötter, Marc Assmann, Manfred Bayer, Alexander Tartakovskii, Maurice Skolnick, Oleksandr Kyriienko, Dmitry Krizhanovskii
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引用次数: 0
摘要
里德伯激子(凝聚态系统中里德伯原子的类似物)是高度激发的束缚电子-空穴态,具有很大的玻尔半径。它们之间的相互作用以及激子与光的耦合可能导致强光学非线性,并应用于传感和量子信息处理。在这里,我们通过雷德贝格封锁现象以及在充满铜氧化物的微谐振器中形成极化子的激子和光子杂化,实现了强有效光子-光子相互作用(类克尔光学非线性)。在脉冲共振激励下,由于光子-激子耦合随着激子密度的增加而降低,极化子共振频率被重新规范化。理论分析表明,在实验观察到的极化子非线性系数缩放中,雷德贝格封锁起了主要作用,当主量子数达到 n = 7 时,其缩放为 ∝ n4.4±1.8。首次在极化子系统中研究出如此高的主量子数对于实现高雷德伯格光学非线性至关重要,这为量子光学应用和固态系统中强相关光子(极化子)态的基础研究铺平了道路。
Nonlinear Rydberg exciton-polaritons in Cu2O microcavities.
Rydberg excitons (analogues of Rydberg atoms in condensed matter systems) are highly excited bound electron-hole states with large Bohr radii. The interaction between them as well as exciton coupling to light may lead to strong optical nonlinearity, with applications in sensing and quantum information processing. Here, we achieve strong effective photon-photon interactions (Kerr-like optical nonlinearity) via the Rydberg blockade phenomenon and the hybridisation of excitons and photons forming polaritons in a Cu2O-filled microresonator. Under pulsed resonant excitation polariton resonance frequencies are renormalised due to the reduction of the photon-exciton coupling with increasing exciton density. Theoretical analysis shows that the Rydberg blockade plays a major role in the experimentally observed scaling of the polariton nonlinearity coefficient as ∝ n4.4±1.8 for principal quantum numbers up to n = 7. Such high principal quantum numbers studied in a polariton system for the first time are essential for realisation of high Rydberg optical nonlinearities, which paves the way towards quantum optical applications and fundamental studies of strongly correlated photonic (polaritonic) states in a solid state system.
期刊介绍:
Light: Science & Applications is an open-access, fully peer-reviewed publication.It publishes high-quality optics and photonics research globally, covering fundamental research and important issues in engineering and applied sciences related to optics and photonics.
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