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首页> 外文期刊>Journal of the Society for Information Display >A plastic holographic waveguide combiner for light-weight and highly-transparent augmented reality glasses
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A plastic holographic waveguide combiner for light-weight and highly-transparent augmented reality glasses

机译:用于轻质和高透明增强现实眼镜的塑料全息波导合成器

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摘要

There is a high demand for light-weight, stylishly designed augmented reality (AR) glasses with natural see-through capabilities for the wide-spread distribution of novel wearable device to general consumers. We have successfully developed a unique production process of a holographic waveguide combiner that enables us to laminate holographic optical elements (HOEs) onto a plastic substrate with optical grade quality. The plastic substrate waveguide combiner has a number of advantages over conventional glass substrate combiners; the plastic substrate makes AR glasses lighter in weight and unbreakable. With the lamination process of HOEs, we can apply them to a various designs to satisfy general customers' wide range of preferences for the style. We also potentially made it possible for the holographic waveguide combiner to be produced in larger volumes at lower costs by using our novel roll-to-roll hologram recording and laminating process. In this paper, we present our approach of the plastic substrate HOE production process for AR glasses.
机译:人们对于具有自然透视功能的轻巧,时尚设计的增强现实(AR)眼镜有很高的要求,以将新颖的可穿戴设备广泛分发给普通消费者。我们已经成功开发了全息波导合路器的独特生产工艺,使我们能够将全息光学元件(HOE)层压到具有光学级质量的塑料基板上。与传统的玻璃基板组合器相比,塑料基板波导组合器具有许多优势。塑料基板使AR眼镜的重量更轻且坚固。通过HOE的层压过程,我们可以将它们应用于各种设计,以满足广大客户对样式的广泛偏爱。通过使用我们新颖的卷对卷全息图记录和层压工艺,我们还有望以更低的成本以更大的体积生产全息波导组合器。在本文中,我们介绍了用于AR玻璃的塑料基板HOE生产过程的方法。

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  • 作者

    Yoshida Takuji; Tokuyama Kazutatsu; Takai Yuichi; Tsukuda Daisuke; Kaneko Tsuyoshi; Suzuki Nobuhiro; Anzai Takafumi; Yoshikaie Akira; Akutsu Katsuyuki; Machida Akio;

  • 作者单位

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Global Mfg & Operat Corp, Mfg Engn Dev Div, Mfg Engn Dev Dept 3, 4-16-1 Okata, Atsugi, Kanagawa 2430021, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

    Sony Corp, Interface Device Dev Dept, Device Technol Dev Div, Device & Mat R&D Grp, 4-14-1 Asahi Cho, Atsugi, Kanagawa 2430014, Japan;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    augmented reality glasses; plastic waveguide; near-eye display; volume hologram; see-through;

    机译:增强现实眼镜;塑料波导;近眼显示器;体积全息图;透视;
  • 入库时间 2022-08-17 23:19:19

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