用于可见光中优化光束整形的元光栅外耦合器。
Meta-grating outcouplers for optimized beam shaping in the visible.
作者信息
Ropp Chad, Yulaev Alexander, Westly Daron, Simelgor Gregory, Aksyuk Vladimir
出版信息
Opt Express. 2021 May 10;29(10):14789-14798. doi: 10.1364/OE.424644.
Abstract
Accurate coupling between optical modes at the interface between photonic chips and free space is required for the development of many on-chip devices. This control is critical in quantum technologies where large-diameter beams with designed mode profiles are required. Yet, these designs are often difficult to achieve at shorter wavelengths where fabrication limits the resolution of designed devices. In this work we demonstrate optimized outcoupling of free-space beams at 461 nm using a meta-grating approach that achieves a 16 dB improvement in the apodized outcoupling strength. We design and fabricate devices, demonstrating accurate reproduction of beams with widths greater than 100 µm.
摘要
许多片上器件的发展需要光子芯片与自由空间界面处的光学模式之间实现精确耦合。这种控制在量子技术中至关重要,因为在量子技术中需要具有设计模式轮廓的大直径光束。然而,在较短波长下,由于制造工艺限制了设计器件的分辨率,这些设计往往难以实现。在这项工作中,我们展示了一种利用超表面光栅方法实现461纳米自由空间光束的优化外耦合,该方法使变迹外耦合强度提高了16分贝。我们设计并制造了器件,证明了能够精确再现宽度大于100微米的光束。
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