三维打印量子发射器光纤耦合器的位置精度

IF 4.4 Q1 OPTICS
Ksenia Weber, Simon Thiele, Mario Hentschel, Alois Herkommer, Harald Giessen
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引用次数: 0

摘要

光学元件的精确定位对光学系统的性能起着关键作用。虽然三维打印等快速成型技术能够一步成型整个复杂的微观目标,从而使透镜对准成为不必要,但某些应用要求打印过程相对于基底进行精确的位置对准。例如,为了有效地将量子发射器耦合到单模光纤(这是开发现实世界量子网络的关键步骤),发射器、耦合光学元件和单模光纤之间的精确对准至关重要。在这项工作中,通过使用集成压电平台对准通过电子束光刻技术制造的金标记,对 Photonics Professional GT(Nanoscribe GmbH)3D 打印机的定位精度进行了评估。通过对 38 个打印周期进行统计分析,确定平均位置误差仅为 80 nm。此外,3D 打印出的整个系统可以将量子发射器与单模光纤耦合。在检查三维打印微型光学器件的焦点时,发现在所有三个维度上的位置精度都≈ 1 µm,而且焦点质量极佳。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Positional Accuracy of 3D Printed Quantum Emitter Fiber Couplers

Positional Accuracy of 3D Printed Quantum Emitter Fiber Couplers

Precise positioning of optical elements plays a key role in the performance of optical systems. While additive manufacturing techniques such as 3D printing enable the creation of entire complex micro-objectives in one step, thus rendering lens alignment unnecessary, certain applications require precise positional alignment of the printing process with respect to the substrate. For example, in order to efficiently couple quantum emitters to single-mode fibers, which is a crucial step in the development of real world quantum networks, precise alignment between the emitter, the coupling optics, and the single-mode fiber is of utmost importance. In this work, the positioning accuracy of a Photonics Professional GT (Nanoscribe GmbH) 3D printing machine is evaluated by using the integrated piezo stage to align to gold markers that is manufactured via e-beam lithography. By running a statistical analysis of 38 printing cycles, a mean positional error of only 80 nm is determined. Additionally, an entire system is 3D printed that can couple quantum emitters to optical single-mode fibers. Examining the focal spot of the 3D printed micro-optics, a positional accuracy of ≈ 1 µm in all three dimensions is found, as well as excellent quality of the focal spot.

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CiteScore
7.90
自引率
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