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Titlebook: Electromagnetic Metamaterials; Modern Insights into Kazuaki Sakoda Book 2019 Springer Nature Singapore Pte Ltd. 2019 Terahertz metamaterial

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發(fā)表于 2025-3-21 17:01:24 | 只看該作者 |倒序瀏覽 |閱讀模式
書目名稱Electromagnetic Metamaterials
副標題Modern Insights into
編輯Kazuaki Sakoda
視頻videohttp://file.papertrans.cn/307/306011/306011.mp4
概述Clearly demonstrates novel aspects of metamaterials to show the direction of future developments.Presents innovative concepts that will lead to qualitatively new phenomena and devices.Describes topics
叢書名稱Springer Series in Materials Science
圖書封面Titlebook: Electromagnetic Metamaterials; Modern Insights into Kazuaki Sakoda Book 2019 Springer Nature Singapore Pte Ltd. 2019 Terahertz metamaterial
描述.This book presents novel and fundamental aspects of metamaterials, which have been overlooked in most previous publications, including chirality, non-reciprocity, and the Dirac-cone formation. It also describes the cutting-edge achievements of experimental studies in the last several years: the development of high-regularity metasurfaces in optical frequencies, high-performance components in the terahertz range, and active, chiral, nonlinear and non-reciprocal metamaterials in the microwave range. Presented here are unique features such as tunable metamaterials based on the discharge plasma, selective thermal emission from plasmonic metasurfaces, and the classical analogue of the electromagnetically induced transparency. These most advanced research achievements are explained in understandable terms by experts in each topic. The descriptions with many practical examples facilitate learning, and not only researchers and experts in this field but also graduate students can read the book without difficulty. The reader finds how these new concepts and new developments are being utilized for practical applications..
出版日期Book 2019
關鍵詞Terahertz metamaterial; Chirality of metamaterials; Microwave metamaterial; Chiral metamaterial; Photoni
版次1
doihttps://doi.org/10.1007/978-981-13-8649-7
isbn_softcover978-981-13-8651-0
isbn_ebook978-981-13-8649-7Series ISSN 0933-033X Series E-ISSN 2196-2812
issn_series 0933-033X
copyrightSpringer Nature Singapore Pte Ltd. 2019
The information of publication is updating

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書目名稱Electromagnetic Metamaterials影響因子(影響力)學科排名




書目名稱Electromagnetic Metamaterials網絡公開度




書目名稱Electromagnetic Metamaterials網絡公開度學科排名




書目名稱Electromagnetic Metamaterials被引頻次




書目名稱Electromagnetic Metamaterials被引頻次學科排名




書目名稱Electromagnetic Metamaterials年度引用




書目名稱Electromagnetic Metamaterials年度引用學科排名




書目名稱Electromagnetic Metamaterials讀者反饋




書目名稱Electromagnetic Metamaterials讀者反饋學科排名




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Efficient Optical Modulation of Terahertz Metamaterials Utilizing Organic/Inorganic Semiconductor Hyfound that some of them show better modulation efficiency than CuPc. We fabricated a silver split-ring resonator (SRR) array metamaterial on CuPc-coated Si utilizing superfine ink-jet printer and succeeded in obtaining efficient modulation of THz resonant responses of SRR array metamaterials by CW l
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Book 2019ing, and not only researchers and experts in this field but also graduate students can read the book without difficulty. The reader finds how these new concepts and new developments are being utilized for practical applications..
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https://doi.org/10.1007/978-1-4842-9830-5ic power by 31% as compared with a conventional blackbody emitter, due to the suppressed unnecessary radiation. Results demonstrate that commercialization of metasurface infrared thermal emitters is becoming a reality.
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Fabrication Techniques for Three-Dimensional Optical Metamaterialsd fields such as negative refractive index, perfect lenses, cloaking, perfect light absorbers, and so on. Because optical metamaterials are artificial sub-wavelength structures, their advancement strongly depends on the development of micro- and nanofabrication techniques. In particular, in spite of
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Blackbody Metamaterial Composite Film of Nanoparticle and Polymerd absorption of the film are calculated on the basis of the Mie theory and Clausius–Mossotti relation, which is equivalent to the Maxwell Garnett theory, at various conditions. We also fabricated the composite metamaterials in which gold nanospherical particles are dispersed in a polyvinylpyrrolidon
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