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Dielectric Metamaterials

- Fundamentals, Designs, and Applications

part of the Woodhead Publishing Series in Electronic and Optical Materials series

Dielectric Metamaterials
About Dielectric Metamaterials

Dielectric Metamaterials: Fundamentals, Designs, and Applications links fundamental Mie scattering theory with the latest dielectric metamaterial research, providing a valuable reference for new and experienced researchers in the field. The book begins with a historical, evolving overview of Mie scattering theory. Next, the authors describe how to apply Mie theory to analytically solve the scattering of electromagnetic waves by subwavelength particles. Later chapters focus on Mie resonator-based metamaterials, starting with microwaves where particles are much smaller than the free space wavelengths. In addition, several chapters focus on wave-front engineering using dielectric metasurfaces and the nonlinear optical effects, spontaneous emission manipulation, active devices, and 3D effective media using dielectric metamaterials. Highlights a crucial link in fundamental Mie scattering theory with the latest dielectric metamaterial research spanning materials, design and applicationsIncludes coverage of wave-front engineering and 3D metamaterialsProvides computational codes for calculating and simulating Mie resonances

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  • Language:
  • English
  • ISBN:
  • 9780081024034
  • Binding:
  • Paperback
  • Pages:
  • 310
  • Published:
  • November 12, 2019
  • Dimensions:
  • 152x229x0 mm.
  • Weight:
  • 500 g.
Delivery: 1-2 weeks
Expected delivery: December 5, 2024

Description of Dielectric Metamaterials

Dielectric Metamaterials: Fundamentals, Designs, and Applications links fundamental Mie scattering theory with the latest dielectric metamaterial research, providing a valuable reference for new and experienced researchers in the field. The book begins with a historical, evolving overview of Mie scattering theory. Next, the authors describe how to apply Mie theory to analytically solve the scattering of electromagnetic waves by subwavelength particles. Later chapters focus on Mie resonator-based metamaterials, starting with microwaves where particles are much smaller than the free space wavelengths.
In addition, several chapters focus on wave-front engineering using dielectric metasurfaces and the nonlinear optical effects, spontaneous emission manipulation, active devices, and 3D effective media using dielectric metamaterials.

Highlights a crucial link in fundamental Mie scattering theory with the latest dielectric metamaterial research spanning materials, design and applicationsIncludes coverage of wave-front engineering and 3D metamaterialsProvides computational codes for calculating and simulating Mie resonances

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