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Photonic Nanomaterials: Merging Top‐Down and Bottom‐Up Approaches to Fabricate Artificial Photonic Nanomaterials with a Deterministic Electric and Magnetic Response (Adv. Funct. Mater. 3/2020)
Advanced Functional Materials ( IF 19.0 ) Pub Date : 2020-01-17 , DOI: 10.1002/adfm.202070014 Kay Dietrich 1 , Matthias Zilk 1 , Martin Steglich 1 , Thomas Siefke 1 , Uwe Hübner 2 , Thomas Pertsch 1, 3 , Carsten Rockstuhl 4, 5 , Andreas Tünnermann 1, 3 , Ernst‐Bernhard Kley 1
Advanced Functional Materials ( IF 19.0 ) Pub Date : 2020-01-17 , DOI: 10.1002/adfm.202070014 Kay Dietrich 1 , Matthias Zilk 1 , Martin Steglich 1 , Thomas Siefke 1 , Uwe Hübner 2 , Thomas Pertsch 1, 3 , Carsten Rockstuhl 4, 5 , Andreas Tünnermann 1, 3 , Ernst‐Bernhard Kley 1
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In article number 1905722, Kay Dietrich, Thomas Siefke, and co‐workers investigate the transformation of a subwavelength nanostructured metasurface with electric and magnetic responses to a photonic bulk material from morphological and optical perspectives. Departing from a periodic structure, a randomized orientation and arrangement of the metaatoms is forced that preserves their magnetic and electric response. This material combines the advantages of materials fabricated with both top‐down and bottom‐up techniques.
中文翻译:
光子纳米材料:融合自上而下和自下而上的方法,以制造具有确定的电和磁响应的人造光子纳米材料(Adv。Funct。Mater。3/2020)
在第1905722号文章中,Kay Dietrich,Thomas Siefke和他的同事们从形态和光学的角度研究了亚波长纳米结构超表面对光子散装材料的电和磁响应的转变。不同于周期性结构,强制保留了偏原子的随机取向和排列,从而保留了它们的磁和电响应。这种材料结合了自上而下和自下而上技术制造的材料的优点。
更新日期:2020-01-17
中文翻译:
光子纳米材料:融合自上而下和自下而上的方法,以制造具有确定的电和磁响应的人造光子纳米材料(Adv。Funct。Mater。3/2020)
在第1905722号文章中,Kay Dietrich,Thomas Siefke和他的同事们从形态和光学的角度研究了亚波长纳米结构超表面对光子散装材料的电和磁响应的转变。不同于周期性结构,强制保留了偏原子的随机取向和排列,从而保留了它们的磁和电响应。这种材料结合了自上而下和自下而上技术制造的材料的优点。
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