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      Metamaterials and Negative Refraction

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      Metamaterials and Negative Refraction

      Rujiang Li , Zhejiang University, China
      Zuojia Wang , Shandong University, People's Republic of China
      Hongsheng Chen , Zhejiang University, China
      December 2020
      This ISBN is for an eBook version which is distributed on our behalf by a third party.
      Adobe eBook Reader
      9781108805124
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      Description

      The discovery of artificial electromagnetic materials, called metamaterials, not only redefines the human perception of constitutive parameters in electromagnetic theory, but also brings forward new phenomena, such as negative refraction. We provide a comprehensive introduction to the unique characteristics of metamaterials, starting with Maxwell's equations and the kDB coordinate system, and moving through to theoretical concepts and design principles of negative refraction in metamaterials. For each kind of media, including isotropic, anisotropic and bianisotropic metamaterials, we discuss the characteristic waves and their properties. We show examples of negative refraction both theoretically and experimentally.

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      December 2020
      Adobe eBook Reader
      9781108805124
      0 pages
      This ISBN is for an eBook version which is distributed on our behalf by a third party.

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      The discovery of artificial electromagnetic materials, called metamaterials, not only redefines the human perception of constitutive parameters in electromagnetic theory, but also brings forward new phenomena, such as negative refraction. We provide a comprehensive introduction to the unique characteristics of metamaterials, starting with Maxwell's equations and the kDB coordinate system, and moving through to theoretical concepts and design principles of negative refraction in metamaterials. For each kind of media, including isotropic, anisotropic and bianisotropic metamaterials, we discuss the characteristic waves and their properties. We show examples of negative refraction both theoretically and experimentally.