Program
DATE2024.11.27
NBPF with Transparent Conducting Oxides
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<h2><span style="color:#2ecc71;"><span style="font-size:20px;">Collaboration with Academia</span></span><br />
NBPF with Transparent Conducting Oxides</h2>
<p>VisEra works with NCU for developing SWIR MF technology.</p>
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<p>Since 2023, Visera RD team has been collaborating with Prof. Sheng-Hui Chen from Department of Optics and Photonics, National Central University. The project mainly focuses on the applications with regard to the development of transparent conducting oxides(TCOs) and new design models for SWIR multi-films (MFs) including narrow-band-pass filters. Our goal is to provide new technologies for MF architectures with reduced thickness and better performances compared with conventional schemes.</p>
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<img alt="NBPF with Transparent Conducting Oxides" src="https://www.viseratech.com/upload/news_research_b/ALL_news_research_24B22_feej6j6skg.jpg" title="NBPF with Transparent Conducting Oxides" /><br />
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<h2><span style="color:#2ecc71;"><span style="font-size:20px;">Collaboration with Academia</span></span><br />
NBPF with Transparent Conducting Oxides</h2>
<p>VisEra works with NCU for developing SWIR MF technology.</p>
</div>
<div class="edit">
<p>Since 2023, Visera RD team has been collaborating with Prof. Sheng-Hui Chen from Department of Optics and Photonics, National Central University. The project mainly focuses on the applications with regard to the development of transparent conducting oxides(TCOs) and new design models for SWIR multi-films (MFs) including narrow-band-pass filters. Our goal is to provide new technologies for MF architectures with reduced thickness and better performances compared with conventional schemes.</p>
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