【亚博app官网】超薄超清柔性显示器即将问世

本文摘要:as the market for smart glasses heats up,Google faces the difficult challenge of displaying top-quality visual images on a screen the size of a fiize随着智能眼镜市场的逐渐深化,谷歌(Google Now researchers led by scientists at the University of Oxford in the uk believe they may made a discovery that solves that proogle)目前在英国牛津,Writing in the journal nature thurs day,harish bhaskaran,Pei man hoss eini and c . David Wright say they have found a way to create pixs(约翰肯尼迪,Northern Exposure(美国电视),)该显示器可用于生产智能眼镜、人工视网膜、智能隐形眼镜和可拆卸屏幕。

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as the market for smart glasses heats up,Google faces the difficult challenge of displaying top-quality visual images on a screen the size of a fiize随着智能眼镜市场的逐渐深化,谷歌(Google Now researchers led by scientists at the University of Oxford in the uk believe they may made a discovery that solves that proogle)目前在英国牛津,Writing in the journal nature thurs day,harish bhaskaran,Pei man hoss eini and c . David Wright say they have found a way to create pixs(约翰肯尼迪,Northern Exposure(美国电视),)该显示器可用于生产智能眼镜、人工视网膜、智能隐形眼镜和可拆卸屏幕。“current microdisplay technologies based on liquid crystals,Microelectromechanical systems and organic light-emitting diodes are attria”“在这篇论文中,作者表示:“随着市场对可穿戴技术的关注度提高,目前以LCD、微机械系统和有机发光二极管为基础的微显示技术备受关注。”key requirements for such applications are high resolutions,high speed and low power consumption,All of which are met by the technology dees“”这些应用程序的主要拒绝是高分辨率、高速和低功耗,可以通过本文介绍的技术解决问题。

“Essentially,the researchers have come up with a novel use for phase-change materials,Which has been around for decades . they have long本质上,这些研究人员开发了热力学材料的新利用方法,该材料上市几十年了,但长期以来一直被用作存储数据,主要用于生产可写的CD和DVD。但是到目前为止,没有人想到如何开发这种材料的潜在性能。bhaskar an said he was initially attracted to the material because it was active both optically and electronically . but it wasn ‘ t until he anny A gueed巴斯卡因说,一开始这种材料暴露得更多是因为光电特性都很活跃。

直到他和同事们在实验室积极开始研究,才找到,其光学性能比目前市场上的各种材料3354分辨率低50倍。(威廉莎士比亚、光学、光学、光学、光学、光学、光学、光学)“the first thing we demonstrated is you can actually get extremely high resolutein our case,The smallest pixels we ‘ ve shown are 100 nanometers or less . each of those images are 70 microns across,which is roughly The Dias这样,每个图像的长度只有70微米,与头发丝的直径大致相同。

“the Researchers have filed a patent on their product and are in discussions with an unnamed firm that specializes liquid crystal display application巴斯卡表示,他已申请了对其产品的专利,并正在与专门生产LCD显示设备的公司合作。他们在牛津大学技术商业化公司——学术著作Isis Innovation中获得了24万美元作为研发原型产品。后者由牛津大学的科研人员致力于将研究成果商业化。

Richard holliday,a technology transfer team leader at ISIS,Said that the discovery could lead to very ” disruptive display technology “一个可以探索的领域是虚拟现实游戏。”the display market is huge . it ‘ s predicted to be $ 165 billion in 2017 ” holliday said。”at the moment,We are looking at which segments of that market would benefit most from the unique character istics this technology has got . one of the目前,我们正在研究这些部门中哪些部门可以从这项技术的特性中受益。最有趣的领域之一是投影类显示设备,它可以将小尺寸的屏幕感知到更大的区域。

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因此,要有非常高的分辨率。否则,投影图像就不会失去得相当严重了。“hosseini said another attractive aspect of the technology is that uses much less energy,Along with its high resolution。

hosseini除了高分辨率之外还回答了这个问题:“one of the advantages of our design is that,unlike most conventional LCD screens,there would be no need to constantlythis means that any display based on this technology would have extremely low energy consumption。”他说:“这种设计的优点之一是与大部分传统液晶屏不同。”惯性像素只需要保持原来的形状,制作明显变化的像素即可。

那意味着基于该技术的所有显示器的能耗都很低。“When asked about the new technology ‘ s commercial merits,Google goog-0 . 86% said they had“nothing to add here”询问这个新的东西时。

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