Enabling mass manufacturing of industry-standard optical waveguide combiners

Journal of optical microsystems Pub Date : 2023-09-23 DOI:10.1117/1.jom.3.3.033502

Stefan Steiner, Matthias Jotz, Frederik Bachhuber, Brian Bilenberg, Tobias Hedegaard Bro, Alireza Rashed, Murat Deveci, Erhan Ercan, Mariana Ballottin, Jan Matthijs ter Meulen

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Abstract

Nanoimprinting of surface-relief grating-based waveguides has the potential to produce one of the industry-leading augmented reality (AR) smart glasses, but there are still many challenges in the design, scaling, and reproducibility of these imprinted waveguides. A promising path toward mass manufacturing of optical waveguide combiners is via large-area nanoimprinting. Here, we present the complete value chain with partners involved throughout the process: from design, mastering, and materials to imprinting and metrology, to prove that this method improves not only the manufacturing throughput but also the waveguide quality. We demonstrate that the replication and image quality are true to the intended design using large area, high refractive index (n = 1.9), square (300 mm × 300 mm) glass substrates with high-refractive index resins (n = 1.9). This is shown to be valid for over 100 replications and for large area nanoimprinting (Gen5, 1100 mm × 1300 mm). Our goal is to demonstrate a viable path toward high-volume and low-cost manufacturing of AR waveguides based on surface relief gratings.

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实现工业标准光波导合成器的大规模生产

基于表面浮雕光栅波导的纳米压印技术有望成为业界领先的增强现实(AR)智能眼镜之一，但在这些压印波导的设计、缩放和可重复性方面仍存在许多挑战。大规模制造光波导合成器的一个有希望的途径是通过大面积纳米压印。在这里，我们展示了整个过程中与合作伙伴的完整价值链:从设计，母版，材料到印迹和计量，以证明该方法不仅提高了制造吞吐量，而且提高了波导质量。我们证明，使用大面积，高折射率(n = 1.9)，方形(300 mm × 300 mm)玻璃基片和高折射率树脂(n = 1.9)的复制和图像质量是真实的预期设计。这对超过100次重复和大面积纳米压印(Gen5, 1100 mm × 1300 mm)是有效的。我们的目标是为基于表面浮雕光栅的AR波导的大批量和低成本制造展示一条可行的道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of optical microsystems

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