Introduction to light trapping in solar cell and photo-detector devices /

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New Approaches to Light Trapping in Solar Cell Devices discusses in detail the use of photonic and plasmonic effects for light trapping in solar cells. It compares and contrasts texturing, the current method of light-trapping design in solar cells, with emerging approaches employing photonic and pla...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Fonash, S. J.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, U.K. ; San Diego, CA : Academic Press, 2015.
Edición:1st ed.
Temas:
Solar cells.
Optical detectors.
Electric power-plants.
Photovoltaic power systems.
Cellules solaires.
Détecteurs optiques.
Centrales électriques.
Systèmes photovoltaïques.
solar cells.
power plants.
Acceso en línea:Texto completo (Requiere registro previo con correo institucional)
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Dedication; Table of contents; Preface; Chapter 1
  • A Brief Overview of Phenomena Involved in Light Trapping; 1.1
  • Interference; 1.2
  • Scattering; 1.3
  • Reflection; 1.3.1
  • Reflection at Interfaces; 1.3.1.1
  • Specular and Diffuse Reflection; 1.3.2
  • Reflection Within Structures; 1.3.2.1
  • Perfectly Diffuse Reflection; 1.3.2.2
  • Fabry-Perot Reflection; 1.4
  • Diffraction; 1.5
  • Plasmonics; 1.6
  • Refraction; Chapter 2
  • Modes and Hybridization; 2.1
  • Introductory comments; 2.2
  • Radiation modes; 2.2.1
  • Dispersion Relations for Radiation Modes.
  • 2.3
  • Trapped traveling modes: guided modes2.3.1
  • Dispersion Relations for Guided Modes; 2.4
  • Trapped traveling modes: Bloch modes; 2.4.1
  • Dispersion Relations for Bloch Modes; 2.5
  • Trapped localized modes: Mie modes and plasma modes; Chapter 3
  • Light-Trapping Structures; 3.1
  • Introduction; 3.2
  • Planar structures with ARCs; 3.3
  • Planar structures with randomly textured surfaces; 3.4
  • Structures with nanoelement arrays; 3.4.1
  • Discussion; 3.4.2
  • Some Numerical Modeling Results; 3.5
  • Structures with plasmonic effects; 3.5.1
  • Discussion.
  • 3.5.2
  • Some Numerical Modeling ResultsChapter 4
  • Summary; 4.1
  • The current picture; 4.2
  • Some future directions?; 4.3
  • Overview; Appendix A
  • Yablonovitch Limit Derivation; A.1
  • Introductory comments; A.2
  • Derivation; Appendix B
  • Fresnel Equations for the Situation of Section 2.2; B.1
  • Background on the Fresnel equations used in Section 2.2; Appendix C
  • Index of Refraction, Permittivity, and Absorption Coefficient; C.1
  • The relationships; References.

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