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Title:
Introduction to light trapping in solar cell and photo-detector devices / Stephen J. Fonash.
Author:
Fonash, S. J.
General Notes:
Includes bibliographical references: (p. 63-65)
A brief overview of phenomena involved in light trapping -- Modes and hybridization -- Light-trapping structures -- Summary -- Appendix A : Yablonovitch limit derivation -- Appendix B : Fresnel equations for the situation of section 2.2 -- Appendix C : Index of refraction, permittivity, and absorption coefficient.
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.
Publisher:
Elsevier ; Academic Press,
Publication Place:
London :
ISBN:
9780124166493 (paperback)
0124166490 (paperback)
Subject:
Solar energy.
SILICON CRYSTALS.
Solar cells.
Optical detectors.
Photovoltaic power systems.
Electric power plants.
Electric power-plants.
Optical detectors.
Photovoltaic power systems.
Silicon crystals.
Solar cells.
Solar energy.
Edition:
First edition.
Contents:
A brief overview of phenomena involved in light trapping -- Modes and hybridization -- Light-trapping structures -- Summary -- Appendix A : Yablonovitch limit derivation -- Appendix B : Fresnel equations for the situation of section 2.2 -- Appendix C : Index of refraction, permittivity, and absorption coefficient.
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.
Physical Description:
65 p. : ill. ;
Location/SubLocation:
HU /HU_MAIN
Publication Date:
c2015.
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Hashemite Main Library
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621.31244 F 673
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1
HU282739
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