Internformat: Optical properties of surfaces /

Optical properties of surfaces /:

"This book represents a substantial body of work describing the theory of the optical properties of thin island films and rough surfaces. In both cases the feature sizes are small compared to the wavelength of light. The approach is extremely rigorous and theoretically very thorough. The reflec...

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1. Verfasser:	Bedeaux, Dick, 1941-
Weitere Verfasser:	Vlieger, Jan
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	London : Imperial College Press, ©2002.
Schlagworte:	Thin films > Optical properties. Thin films > Surfaces. Surfaces (Physics) Optical films. Couches minces > Propriétés optiques. Couches minces > Surfaces. Surfaces (Physique) Couches optiques. SCIENCE > Physics > General. SCIENCE > Mechanics > General. SCIENCE > Energy. Optical films Thin films > Optical properties Thin films > Surfaces
Online-Zugang:	Volltext
Zusammenfassung:	"This book represents a substantial body of work describing the theory of the optical properties of thin island films and rough surfaces. In both cases the feature sizes are small compared to the wavelength of light. The approach is extremely rigorous and theoretically very thorough. The reflection, transmission and absorption of light are described. Computer programs that provide exact solutions for theoretical properties of thin island films are available, and this makes the book of great practical use. The early chapters present a comprehensive theoretical framework. In this new edition a chapter on reflection from gyrotropic media has been added. Contributions due to the gyrotropic nature of the interfacial layer are discussed."--Jacket
Beschreibung:	1 online resource (xii, 432 pages) : illustrations
Bibliographie:	Includes bibliographical references (pages 427-429) and index.
ISBN:	186094387X 9781860943874

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100	1		\|a Bedeaux, Dick, \|d 1941- \|1 https://id.oclc.org/worldcat/entity/E39PBJkMJwrbqP7KQD8qHtXw4q \|0 http://id.loc.gov/authorities/names/nb2002017918
245	1	0	\|a Optical properties of surfaces / \|c Dick Bedeaux, Jan Vlieger.
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504			\|a Includes bibliographical references (pages 427-429) and index.
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520			\|a "This book represents a substantial body of work describing the theory of the optical properties of thin island films and rough surfaces. In both cases the feature sizes are small compared to the wavelength of light. The approach is extremely rigorous and theoretically very thorough. The reflection, transmission and absorption of light are described. Computer programs that provide exact solutions for theoretical properties of thin island films are available, and this makes the book of great practical use. The early chapters present a comprehensive theoretical framework. In this new edition a chapter on reflection from gyrotropic media has been added. Contributions due to the gyrotropic nature of the interfacial layer are discussed."--Jacket
505	0		\|a 1. Introduction -- 2. Excess currents, charge densities and fields. 2.1 Introduction -- 2.2. Excess electric current, charge density and electric field in a conducting layer -- 2.3. Excess electric and displacement fields in a dielectric layer -- 2.4. Excess currents, charge density and fields and the boundary conditions -- 2.5. Higher order moments of the excess currents, charge density and fields -- 2.6. Boundary conditions in terms of interfacial polarization and magnetization densities -- 3. Maxwell's equations with singular fields. 3.1. Introduction -- 3.2. Singularities in the fields, currents and charge densities -- 3.3. Maxwell's equations for singular fields and the boundary conditions -- 3.4. Charge conservation -- 3.5. Generalized electric displacement field -- 3.6. Constitutive relations for isotropic interfaces without dispersion -- 3.7. Constitutive relations for isotropic interfaces with spatial dispersion -- 3.8. Dependence of the constitutive coefficients on the location of the dividing surface -- 3.9. Invariants -- 3.10. Shifting the dividing surface for a film embedded in a homogeneous medium -- 3.11. Superposition of adjacent films -- 3.12. Appendix A -- 4. Reflection and transmission. 4.1. Introduction -- 4.2. TE-wave -- 4.3. TM-waves -- 4.4. Reflectance and transmittance in non-magnetic systems -- 4.5. Reflectance and transmittance in non-magnetic systems at normal incidence -- 4.6. Reflectance of p-polarized light in non-magnetic systems near the Brewster angle -- 4.7. Reflectometry around an angle of incidence of 45 degrees -- 4.8. Ellipsometry -- 4.9. Total reflection -- 5. Island films in the low coverage limit. 5.1. Introduction -- 5.2. Linear response of an island -- 5.3. Gamma and beta in the polarizable dipole model -- 5.4. Delta and tau in the polarizable dipole model -- 5.5. Polarizable quadrupole model -- 5.6. Spherical islands -- 5.7. Application: Spherical gold islands on sapphire -- 5.8. Appendix A -- 5.9. Appendix B -- 6. Spheroidal island films in the low coverage limit. 6.1. Introduction -- 6.2. Oblate spheroids; the polarizable quadrupole model -- 6.3. Prolate spheroids; the polarizable quadrupole model -- 6.4. Oblate spheroids; spheroidal multipole expansions -- 6.5. Prolate spheroids; spheroidal multipole expansions -- 6.6. Application: Spheroidal gold islands on sapphire -- 6.7. Appendix A -- 7. Islands films for a finite coverage. 7.1. Introduction -- 7.2. Two-dimensional arrays of sphere -- 7.3. Regular arrays of spheres -- 7.4. Random arrays of spheres -- 7.5. Dipole approximation for spheres -- 7.6. Quadrupole approximation for spheres -- 7.7. Two-dimensional arrays of spheroids -- 7.8. Dipole approximation for spheroids -- 7.9. Quadrupole approximation for spheroids -- 7.10. Application: Gold islands on sapphire -- 7.11. Appendix A: lattice sums -- 7.12. Appendix B.
505	8		\|a 8. Films of truncated spheres for a low coverage. 8.1. Introduction -- 8.2. Truncated spheres on a substrate -- 8.3. Spherical caps on a substrate -- 8.4. Spheres and hemispheres on a substrate -- 8.5. Thin spherical caps -- 8.6. Application to truncated gold spheres and caps on sapphire -- 8.7. Appendix A -- 8.8. Appendix B -- 9. Films of truncated spheroids in the low coverage limit. 9.1. Introduction -- 9.2. Truncated oblate spheroids on a substrate -- 9.3. Truncated prolate spheroids on a substrate -- 9.4. Oblate spheroidal caps on a substrate -- 9.5. Prolate spheroidal caps on a substrate -- 9.6. Spheroids and hemispheroids on a substrate -- 9.7. Application: Truncated gold spheroids and caps on sapphire -- 9.8. Appendix A -- 9.9. Appendix B -- 10. Films of truncated spheres or spheroids for finite coverage. 10.1. Introduction -- 10.2. Two-dimensional arrays of truncated spherical or spheroidal islands -- 10.3. Two-dimensional arrays of spherical or spheroidal caps -- 10.4. Dipole approximation -- 10.5. Quadrupole approximation -- 10.6. Application: Gold islands on sapphire -- 10.7. Appendix A: truncated particles -- 10.8. Appendix B: caps -- 11. Stratified layers. 11.1. Introduction -- 11.2. Constitutive coefficients -- 11.3. Invariants -- 11.4. Non-magnetic stratified layers -- 11.5. Conclusions -- 12. The wave equation and its general solution. 12.1. Introduction -- 12.2. The wave equations -- 12.3. The solution of the wave equations -- 12.4. The fields due to the surface polarization and magnetization densities -- 12.5. Dipole-dipole interaction along the surface -- 12.6. Appendix A -- 13. General linear response theory for surfaces. 13.1. Introduction -- 13.2. Green functions -- 14. Surface roughness. 14.1. Introduction -- 14.2. General theory -- 14.3. Rough surfaces -- 14.4. Capillary waves -- 14.5. Intrinsic profile contributions -- 14.6. Oxide layers -- 14.7. Thin spherical caps on a substrate.
650		0	\|a Thin films \|x Optical properties. \|0 http://id.loc.gov/authorities/subjects/sh85134867
650		0	\|a Thin films \|x Surfaces.
650		0	\|a Surfaces (Physics) \|0 http://id.loc.gov/authorities/subjects/sh85130749
650		0	\|a Optical films. \|0 http://id.loc.gov/authorities/subjects/sh85095146
650		6	\|a Couches minces \|x Propriétés optiques.
650		6	\|a Couches minces \|x Surfaces.
650		6	\|a Surfaces (Physique)
650		6	\|a Couches optiques.
650		7	\|a SCIENCE \|x Physics \|x General. \|2 bisacsh
650		7	\|a SCIENCE \|x Mechanics \|x General. \|2 bisacsh
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650		7	\|a Thin films \|x Optical properties \|2 fast
650		7	\|a Thin films \|x Surfaces \|2 fast
700	1		\|a Vlieger, Jan.
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author	Bedeaux, Dick, 1941-
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contents	1. Introduction -- 2. Excess currents, charge densities and fields. 2.1 Introduction -- 2.2. Excess electric current, charge density and electric field in a conducting layer -- 2.3. Excess electric and displacement fields in a dielectric layer -- 2.4. Excess currents, charge density and fields and the boundary conditions -- 2.5. Higher order moments of the excess currents, charge density and fields -- 2.6. Boundary conditions in terms of interfacial polarization and magnetization densities -- 3. Maxwell's equations with singular fields. 3.1. Introduction -- 3.2. Singularities in the fields, currents and charge densities -- 3.3. Maxwell's equations for singular fields and the boundary conditions -- 3.4. Charge conservation -- 3.5. Generalized electric displacement field -- 3.6. Constitutive relations for isotropic interfaces without dispersion -- 3.7. Constitutive relations for isotropic interfaces with spatial dispersion -- 3.8. Dependence of the constitutive coefficients on the location of the dividing surface -- 3.9. Invariants -- 3.10. Shifting the dividing surface for a film embedded in a homogeneous medium -- 3.11. Superposition of adjacent films -- 3.12. Appendix A -- 4. Reflection and transmission. 4.1. Introduction -- 4.2. TE-wave -- 4.3. TM-waves -- 4.4. Reflectance and transmittance in non-magnetic systems -- 4.5. Reflectance and transmittance in non-magnetic systems at normal incidence -- 4.6. Reflectance of p-polarized light in non-magnetic systems near the Brewster angle -- 4.7. Reflectometry around an angle of incidence of 45 degrees -- 4.8. Ellipsometry -- 4.9. Total reflection -- 5. Island films in the low coverage limit. 5.1. Introduction -- 5.2. Linear response of an island -- 5.3. Gamma and beta in the polarizable dipole model -- 5.4. Delta and tau in the polarizable dipole model -- 5.5. Polarizable quadrupole model -- 5.6. Spherical islands -- 5.7. Application: Spherical gold islands on sapphire -- 5.8. Appendix A -- 5.9. Appendix B -- 6. Spheroidal island films in the low coverage limit. 6.1. Introduction -- 6.2. Oblate spheroids; the polarizable quadrupole model -- 6.3. Prolate spheroids; the polarizable quadrupole model -- 6.4. Oblate spheroids; spheroidal multipole expansions -- 6.5. Prolate spheroids; spheroidal multipole expansions -- 6.6. Application: Spheroidal gold islands on sapphire -- 6.7. Appendix A -- 7. Islands films for a finite coverage. 7.1. Introduction -- 7.2. Two-dimensional arrays of sphere -- 7.3. Regular arrays of spheres -- 7.4. Random arrays of spheres -- 7.5. Dipole approximation for spheres -- 7.6. Quadrupole approximation for spheres -- 7.7. Two-dimensional arrays of spheroids -- 7.8. Dipole approximation for spheroids -- 7.9. Quadrupole approximation for spheroids -- 7.10. Application: Gold islands on sapphire -- 7.11. Appendix A: lattice sums -- 7.12. Appendix B. 8. Films of truncated spheres for a low coverage. 8.1. Introduction -- 8.2. Truncated spheres on a substrate -- 8.3. Spherical caps on a substrate -- 8.4. Spheres and hemispheres on a substrate -- 8.5. Thin spherical caps -- 8.6. Application to truncated gold spheres and caps on sapphire -- 8.7. Appendix A -- 8.8. Appendix B -- 9. Films of truncated spheroids in the low coverage limit. 9.1. Introduction -- 9.2. Truncated oblate spheroids on a substrate -- 9.3. Truncated prolate spheroids on a substrate -- 9.4. Oblate spheroidal caps on a substrate -- 9.5. Prolate spheroidal caps on a substrate -- 9.6. Spheroids and hemispheroids on a substrate -- 9.7. Application: Truncated gold spheroids and caps on sapphire -- 9.8. Appendix A -- 9.9. Appendix B -- 10. Films of truncated spheres or spheroids for finite coverage. 10.1. Introduction -- 10.2. Two-dimensional arrays of truncated spherical or spheroidal islands -- 10.3. Two-dimensional arrays of spherical or spheroidal caps -- 10.4. Dipole approximation -- 10.5. Quadrupole approximation -- 10.6. Application: Gold islands on sapphire -- 10.7. Appendix A: truncated particles -- 10.8. Appendix B: caps -- 11. Stratified layers. 11.1. Introduction -- 11.2. Constitutive coefficients -- 11.3. Invariants -- 11.4. Non-magnetic stratified layers -- 11.5. Conclusions -- 12. The wave equation and its general solution. 12.1. Introduction -- 12.2. The wave equations -- 12.3. The solution of the wave equations -- 12.4. The fields due to the surface polarization and magnetization densities -- 12.5. Dipole-dipole interaction along the surface -- 12.6. Appendix A -- 13. General linear response theory for surfaces. 13.1. Introduction -- 13.2. Green functions -- 14. Surface roughness. 14.1. Introduction -- 14.2. General theory -- 14.3. Rough surfaces -- 14.4. Capillary waves -- 14.5. Intrinsic profile contributions -- 14.6. Oxide layers -- 14.7. Thin spherical caps on a substrate.
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In both cases the feature sizes are small compared to the wavelength of light. The approach is extremely rigorous and theoretically very thorough. The reflection, transmission and absorption of light are described. Computer programs that provide exact solutions for theoretical properties of thin island films are available, and this makes the book of great practical use. The early chapters present a comprehensive theoretical framework. In this new edition a chapter on reflection from gyrotropic media has been added. Contributions due to the gyrotropic nature of the interfacial layer are discussed."--Jacket</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">1. Introduction -- 2. Excess currents, charge densities and fields. 2.1 Introduction -- 2.2. Excess electric current, charge density and electric field in a conducting layer -- 2.3. Excess electric and displacement fields in a dielectric layer -- 2.4. Excess currents, charge density and fields and the boundary conditions -- 2.5. Higher order moments of the excess currents, charge density and fields -- 2.6. Boundary conditions in terms of interfacial polarization and magnetization densities -- 3. Maxwell's equations with singular fields. 3.1. Introduction -- 3.2. Singularities in the fields, currents and charge densities -- 3.3. Maxwell's equations for singular fields and the boundary conditions -- 3.4. Charge conservation -- 3.5. Generalized electric displacement field -- 3.6. Constitutive relations for isotropic interfaces without dispersion -- 3.7. Constitutive relations for isotropic interfaces with spatial dispersion -- 3.8. Dependence of the constitutive coefficients on the location of the dividing surface -- 3.9. Invariants -- 3.10. Shifting the dividing surface for a film embedded in a homogeneous medium -- 3.11. Superposition of adjacent films -- 3.12. Appendix A -- 4. Reflection and transmission. 4.1. Introduction -- 4.2. TE-wave -- 4.3. TM-waves -- 4.4. Reflectance and transmittance in non-magnetic systems -- 4.5. Reflectance and transmittance in non-magnetic systems at normal incidence -- 4.6. Reflectance of p-polarized light in non-magnetic systems near the Brewster angle -- 4.7. Reflectometry around an angle of incidence of 45 degrees -- 4.8. Ellipsometry -- 4.9. Total reflection -- 5. Island films in the low coverage limit. 5.1. Introduction -- 5.2. Linear response of an island -- 5.3. Gamma and beta in the polarizable dipole model -- 5.4. Delta and tau in the polarizable dipole model -- 5.5. Polarizable quadrupole model -- 5.6. Spherical islands -- 5.7. Application: Spherical gold islands on sapphire -- 5.8. Appendix A -- 5.9. Appendix B -- 6. Spheroidal island films in the low coverage limit. 6.1. Introduction -- 6.2. Oblate spheroids; the polarizable quadrupole model -- 6.3. Prolate spheroids; the polarizable quadrupole model -- 6.4. Oblate spheroids; spheroidal multipole expansions -- 6.5. Prolate spheroids; spheroidal multipole expansions -- 6.6. Application: Spheroidal gold islands on sapphire -- 6.7. Appendix A -- 7. Islands films for a finite coverage. 7.1. Introduction -- 7.2. Two-dimensional arrays of sphere -- 7.3. Regular arrays of spheres -- 7.4. Random arrays of spheres -- 7.5. Dipole approximation for spheres -- 7.6. Quadrupole approximation for spheres -- 7.7. Two-dimensional arrays of spheroids -- 7.8. Dipole approximation for spheroids -- 7.9. Quadrupole approximation for spheroids -- 7.10. Application: Gold islands on sapphire -- 7.11. Appendix A: lattice sums -- 7.12. Appendix B.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">8. Films of truncated spheres for a low coverage. 8.1. Introduction -- 8.2. Truncated spheres on a substrate -- 8.3. Spherical caps on a substrate -- 8.4. Spheres and hemispheres on a substrate -- 8.5. Thin spherical caps -- 8.6. Application to truncated gold spheres and caps on sapphire -- 8.7. Appendix A -- 8.8. Appendix B -- 9. Films of truncated spheroids in the low coverage limit. 9.1. Introduction -- 9.2. Truncated oblate spheroids on a substrate -- 9.3. Truncated prolate spheroids on a substrate -- 9.4. Oblate spheroidal caps on a substrate -- 9.5. Prolate spheroidal caps on a substrate -- 9.6. Spheroids and hemispheroids on a substrate -- 9.7. Application: Truncated gold spheroids and caps on sapphire -- 9.8. Appendix A -- 9.9. Appendix B -- 10. Films of truncated spheres or spheroids for finite coverage. 10.1. Introduction -- 10.2. Two-dimensional arrays of truncated spherical or spheroidal islands -- 10.3. Two-dimensional arrays of spherical or spheroidal caps -- 10.4. Dipole approximation -- 10.5. Quadrupole approximation -- 10.6. Application: Gold islands on sapphire -- 10.7. Appendix A: truncated particles -- 10.8. Appendix B: caps -- 11. Stratified layers. 11.1. Introduction -- 11.2. Constitutive coefficients -- 11.3. Invariants -- 11.4. Non-magnetic stratified layers -- 11.5. Conclusions -- 12. The wave equation and its general solution. 12.1. Introduction -- 12.2. The wave equations -- 12.3. The solution of the wave equations -- 12.4. The fields due to the surface polarization and magnetization densities -- 12.5. Dipole-dipole interaction along the surface -- 12.6. Appendix A -- 13. General linear response theory for surfaces. 13.1. Introduction -- 13.2. Green functions -- 14. Surface roughness. 14.1. Introduction -- 14.2. General theory -- 14.3. Rough surfaces -- 14.4. Capillary waves -- 14.5. Intrinsic profile contributions -- 14.6. Oxide layers -- 14.7. 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id	ZDB-4-EBA-ocm53292543
illustrated	Illustrated
indexdate	2024-11-27T13:15:29Z
institution	BVB
isbn	186094387X 9781860943874
language	English
oclc_num	53292543
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owner	MAIN DE-863 DE-BY-FWS
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physical	1 online resource (xii, 432 pages) : illustrations
psigel	ZDB-4-EBA
publishDate	2002
publishDateSearch	2002
publishDateSort	2002
publisher	Imperial College Press,
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spelling	Bedeaux, Dick, 1941- https://id.oclc.org/worldcat/entity/E39PBJkMJwrbqP7KQD8qHtXw4q http://id.loc.gov/authorities/names/nb2002017918 Optical properties of surfaces / Dick Bedeaux, Jan Vlieger. London : Imperial College Press, ©2002. 1 online resource (xii, 432 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier data file Includes bibliographical references (pages 427-429) and index. Print version record. "This book represents a substantial body of work describing the theory of the optical properties of thin island films and rough surfaces. In both cases the feature sizes are small compared to the wavelength of light. The approach is extremely rigorous and theoretically very thorough. The reflection, transmission and absorption of light are described. Computer programs that provide exact solutions for theoretical properties of thin island films are available, and this makes the book of great practical use. The early chapters present a comprehensive theoretical framework. In this new edition a chapter on reflection from gyrotropic media has been added. Contributions due to the gyrotropic nature of the interfacial layer are discussed."--Jacket 1. Introduction -- 2. Excess currents, charge densities and fields. 2.1 Introduction -- 2.2. Excess electric current, charge density and electric field in a conducting layer -- 2.3. Excess electric and displacement fields in a dielectric layer -- 2.4. Excess currents, charge density and fields and the boundary conditions -- 2.5. Higher order moments of the excess currents, charge density and fields -- 2.6. Boundary conditions in terms of interfacial polarization and magnetization densities -- 3. Maxwell's equations with singular fields. 3.1. Introduction -- 3.2. Singularities in the fields, currents and charge densities -- 3.3. Maxwell's equations for singular fields and the boundary conditions -- 3.4. Charge conservation -- 3.5. Generalized electric displacement field -- 3.6. Constitutive relations for isotropic interfaces without dispersion -- 3.7. Constitutive relations for isotropic interfaces with spatial dispersion -- 3.8. Dependence of the constitutive coefficients on the location of the dividing surface -- 3.9. Invariants -- 3.10. Shifting the dividing surface for a film embedded in a homogeneous medium -- 3.11. Superposition of adjacent films -- 3.12. Appendix A -- 4. Reflection and transmission. 4.1. Introduction -- 4.2. TE-wave -- 4.3. TM-waves -- 4.4. Reflectance and transmittance in non-magnetic systems -- 4.5. Reflectance and transmittance in non-magnetic systems at normal incidence -- 4.6. Reflectance of p-polarized light in non-magnetic systems near the Brewster angle -- 4.7. Reflectometry around an angle of incidence of 45 degrees -- 4.8. Ellipsometry -- 4.9. Total reflection -- 5. Island films in the low coverage limit. 5.1. Introduction -- 5.2. Linear response of an island -- 5.3. Gamma and beta in the polarizable dipole model -- 5.4. Delta and tau in the polarizable dipole model -- 5.5. Polarizable quadrupole model -- 5.6. Spherical islands -- 5.7. Application: Spherical gold islands on sapphire -- 5.8. Appendix A -- 5.9. Appendix B -- 6. Spheroidal island films in the low coverage limit. 6.1. Introduction -- 6.2. Oblate spheroids; the polarizable quadrupole model -- 6.3. Prolate spheroids; the polarizable quadrupole model -- 6.4. Oblate spheroids; spheroidal multipole expansions -- 6.5. Prolate spheroids; spheroidal multipole expansions -- 6.6. Application: Spheroidal gold islands on sapphire -- 6.7. Appendix A -- 7. Islands films for a finite coverage. 7.1. Introduction -- 7.2. Two-dimensional arrays of sphere -- 7.3. Regular arrays of spheres -- 7.4. Random arrays of spheres -- 7.5. Dipole approximation for spheres -- 7.6. Quadrupole approximation for spheres -- 7.7. Two-dimensional arrays of spheroids -- 7.8. Dipole approximation for spheroids -- 7.9. Quadrupole approximation for spheroids -- 7.10. Application: Gold islands on sapphire -- 7.11. Appendix A: lattice sums -- 7.12. Appendix B. 8. Films of truncated spheres for a low coverage. 8.1. Introduction -- 8.2. Truncated spheres on a substrate -- 8.3. Spherical caps on a substrate -- 8.4. Spheres and hemispheres on a substrate -- 8.5. Thin spherical caps -- 8.6. Application to truncated gold spheres and caps on sapphire -- 8.7. Appendix A -- 8.8. Appendix B -- 9. Films of truncated spheroids in the low coverage limit. 9.1. Introduction -- 9.2. Truncated oblate spheroids on a substrate -- 9.3. Truncated prolate spheroids on a substrate -- 9.4. Oblate spheroidal caps on a substrate -- 9.5. Prolate spheroidal caps on a substrate -- 9.6. Spheroids and hemispheroids on a substrate -- 9.7. Application: Truncated gold spheroids and caps on sapphire -- 9.8. Appendix A -- 9.9. Appendix B -- 10. Films of truncated spheres or spheroids for finite coverage. 10.1. Introduction -- 10.2. Two-dimensional arrays of truncated spherical or spheroidal islands -- 10.3. Two-dimensional arrays of spherical or spheroidal caps -- 10.4. Dipole approximation -- 10.5. Quadrupole approximation -- 10.6. Application: Gold islands on sapphire -- 10.7. Appendix A: truncated particles -- 10.8. Appendix B: caps -- 11. Stratified layers. 11.1. Introduction -- 11.2. Constitutive coefficients -- 11.3. Invariants -- 11.4. Non-magnetic stratified layers -- 11.5. Conclusions -- 12. The wave equation and its general solution. 12.1. Introduction -- 12.2. The wave equations -- 12.3. The solution of the wave equations -- 12.4. The fields due to the surface polarization and magnetization densities -- 12.5. Dipole-dipole interaction along the surface -- 12.6. Appendix A -- 13. General linear response theory for surfaces. 13.1. Introduction -- 13.2. Green functions -- 14. Surface roughness. 14.1. Introduction -- 14.2. General theory -- 14.3. Rough surfaces -- 14.4. Capillary waves -- 14.5. Intrinsic profile contributions -- 14.6. Oxide layers -- 14.7. Thin spherical caps on a substrate. Thin films Optical properties. http://id.loc.gov/authorities/subjects/sh85134867 Thin films Surfaces. Surfaces (Physics) http://id.loc.gov/authorities/subjects/sh85130749 Optical films. http://id.loc.gov/authorities/subjects/sh85095146 Couches minces Propriétés optiques. Couches minces Surfaces. Surfaces (Physique) Couches optiques. SCIENCE Physics General. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Energy. bisacsh Optical films fast Surfaces (Physics) fast Thin films Optical properties fast Thin films Surfaces fast Vlieger, Jan. has work: Optical properties of surfaces (Text) https://id.oclc.org/worldcat/entity/E39PCFM78JXyHYRMhV4CrQqJ6q https://id.oclc.org/worldcat/ontology/hasWork Print version: Bedeaux, Dick. Optical properties of surfaces. London : Imperial College Press, ©2002 1860942717 (OCoLC)48978522 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=83654 Volltext
spellingShingle	Bedeaux, Dick, 1941- Optical properties of surfaces / 1. Introduction -- 2. Excess currents, charge densities and fields. 2.1 Introduction -- 2.2. Excess electric current, charge density and electric field in a conducting layer -- 2.3. Excess electric and displacement fields in a dielectric layer -- 2.4. Excess currents, charge density and fields and the boundary conditions -- 2.5. Higher order moments of the excess currents, charge density and fields -- 2.6. Boundary conditions in terms of interfacial polarization and magnetization densities -- 3. Maxwell's equations with singular fields. 3.1. Introduction -- 3.2. Singularities in the fields, currents and charge densities -- 3.3. Maxwell's equations for singular fields and the boundary conditions -- 3.4. Charge conservation -- 3.5. Generalized electric displacement field -- 3.6. Constitutive relations for isotropic interfaces without dispersion -- 3.7. Constitutive relations for isotropic interfaces with spatial dispersion -- 3.8. Dependence of the constitutive coefficients on the location of the dividing surface -- 3.9. Invariants -- 3.10. Shifting the dividing surface for a film embedded in a homogeneous medium -- 3.11. Superposition of adjacent films -- 3.12. Appendix A -- 4. Reflection and transmission. 4.1. Introduction -- 4.2. TE-wave -- 4.3. TM-waves -- 4.4. Reflectance and transmittance in non-magnetic systems -- 4.5. Reflectance and transmittance in non-magnetic systems at normal incidence -- 4.6. Reflectance of p-polarized light in non-magnetic systems near the Brewster angle -- 4.7. Reflectometry around an angle of incidence of 45 degrees -- 4.8. Ellipsometry -- 4.9. Total reflection -- 5. Island films in the low coverage limit. 5.1. Introduction -- 5.2. Linear response of an island -- 5.3. Gamma and beta in the polarizable dipole model -- 5.4. Delta and tau in the polarizable dipole model -- 5.5. Polarizable quadrupole model -- 5.6. Spherical islands -- 5.7. Application: Spherical gold islands on sapphire -- 5.8. Appendix A -- 5.9. Appendix B -- 6. Spheroidal island films in the low coverage limit. 6.1. Introduction -- 6.2. Oblate spheroids; the polarizable quadrupole model -- 6.3. Prolate spheroids; the polarizable quadrupole model -- 6.4. Oblate spheroids; spheroidal multipole expansions -- 6.5. Prolate spheroids; spheroidal multipole expansions -- 6.6. Application: Spheroidal gold islands on sapphire -- 6.7. Appendix A -- 7. Islands films for a finite coverage. 7.1. Introduction -- 7.2. Two-dimensional arrays of sphere -- 7.3. Regular arrays of spheres -- 7.4. Random arrays of spheres -- 7.5. Dipole approximation for spheres -- 7.6. Quadrupole approximation for spheres -- 7.7. Two-dimensional arrays of spheroids -- 7.8. Dipole approximation for spheroids -- 7.9. Quadrupole approximation for spheroids -- 7.10. Application: Gold islands on sapphire -- 7.11. Appendix A: lattice sums -- 7.12. Appendix B. 8. Films of truncated spheres for a low coverage. 8.1. Introduction -- 8.2. Truncated spheres on a substrate -- 8.3. Spherical caps on a substrate -- 8.4. Spheres and hemispheres on a substrate -- 8.5. Thin spherical caps -- 8.6. Application to truncated gold spheres and caps on sapphire -- 8.7. Appendix A -- 8.8. Appendix B -- 9. Films of truncated spheroids in the low coverage limit. 9.1. Introduction -- 9.2. Truncated oblate spheroids on a substrate -- 9.3. Truncated prolate spheroids on a substrate -- 9.4. Oblate spheroidal caps on a substrate -- 9.5. Prolate spheroidal caps on a substrate -- 9.6. Spheroids and hemispheroids on a substrate -- 9.7. Application: Truncated gold spheroids and caps on sapphire -- 9.8. Appendix A -- 9.9. Appendix B -- 10. Films of truncated spheres or spheroids for finite coverage. 10.1. Introduction -- 10.2. Two-dimensional arrays of truncated spherical or spheroidal islands -- 10.3. Two-dimensional arrays of spherical or spheroidal caps -- 10.4. Dipole approximation -- 10.5. Quadrupole approximation -- 10.6. Application: Gold islands on sapphire -- 10.7. Appendix A: truncated particles -- 10.8. Appendix B: caps -- 11. Stratified layers. 11.1. Introduction -- 11.2. Constitutive coefficients -- 11.3. Invariants -- 11.4. Non-magnetic stratified layers -- 11.5. Conclusions -- 12. The wave equation and its general solution. 12.1. Introduction -- 12.2. The wave equations -- 12.3. The solution of the wave equations -- 12.4. The fields due to the surface polarization and magnetization densities -- 12.5. Dipole-dipole interaction along the surface -- 12.6. Appendix A -- 13. General linear response theory for surfaces. 13.1. Introduction -- 13.2. Green functions -- 14. Surface roughness. 14.1. Introduction -- 14.2. General theory -- 14.3. Rough surfaces -- 14.4. Capillary waves -- 14.5. Intrinsic profile contributions -- 14.6. Oxide layers -- 14.7. Thin spherical caps on a substrate. Thin films Optical properties. http://id.loc.gov/authorities/subjects/sh85134867 Thin films Surfaces. Surfaces (Physics) http://id.loc.gov/authorities/subjects/sh85130749 Optical films. http://id.loc.gov/authorities/subjects/sh85095146 Couches minces Propriétés optiques. Couches minces Surfaces. Surfaces (Physique) Couches optiques. SCIENCE Physics General. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Energy. bisacsh Optical films fast Surfaces (Physics) fast Thin films Optical properties fast Thin films Surfaces fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85134867 http://id.loc.gov/authorities/subjects/sh85130749 http://id.loc.gov/authorities/subjects/sh85095146
title	Optical properties of surfaces /
title_auth	Optical properties of surfaces /
title_exact_search	Optical properties of surfaces /
title_full	Optical properties of surfaces / Dick Bedeaux, Jan Vlieger.
title_fullStr	Optical properties of surfaces / Dick Bedeaux, Jan Vlieger.
title_full_unstemmed	Optical properties of surfaces / Dick Bedeaux, Jan Vlieger.
title_short	Optical properties of surfaces /
title_sort	optical properties of surfaces
topic	Thin films Optical properties. http://id.loc.gov/authorities/subjects/sh85134867 Thin films Surfaces. Surfaces (Physics) http://id.loc.gov/authorities/subjects/sh85130749 Optical films. http://id.loc.gov/authorities/subjects/sh85095146 Couches minces Propriétés optiques. Couches minces Surfaces. Surfaces (Physique) Couches optiques. SCIENCE Physics General. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Energy. bisacsh Optical films fast Surfaces (Physics) fast Thin films Optical properties fast Thin films Surfaces fast
topic_facet	Thin films Optical properties. Thin films Surfaces. Surfaces (Physics) Optical films. Couches minces Propriétés optiques. Couches minces Surfaces. Surfaces (Physique) Couches optiques. SCIENCE Physics General. SCIENCE Mechanics General. SCIENCE Energy. Optical films Thin films Optical properties Thin films Surfaces
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=83654
work_keys_str_mv	AT bedeauxdick opticalpropertiesofsurfaces AT vliegerjan opticalpropertiesofsurfaces

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