Stenzel, Olaf

Title

The Physics of Thin Film Optical Spectra An Introduction

Name: The Physics of Thin Film Optical Spectra An Introduction
Author: Stenzel, Olaf

Author Statement

Olaf Stenzel

Edition

3ed edition

Publication

Springer

Publication Year

2024

Collation

1 online resource, xxviii, 438p.: ill

Series

Springer series in surface sciences ; 44

Notes

978-3-031-65030-7 , Includes bibliographical references an‎d index , Foreword; Preface to the Second Edition; Preface to the First Edition; Contents; Symbols an‎d Abbreviations; 1 Introduction; Abstract; 1.1 General Remarks; 1.2 To the Content of the Book; 1.3 The General Problem; 1.4 One Remark Concerning Conventions; Part I Classical Description of the Interactionof Light with Matter; 2 The Linear Dielectric Susceptibility; Abstract; 2.1 Maxwellʹs Equations; 2.2 The Linear Dielectric Susceptibility; 2.3 Linear Optical Constants; 2.4 Some General Remarks; 2.5 Example: Orientation Polarization an‎d Debyeʹs Equations; 2.6 Energy Dissipation , 3 The Classical Treatment of Free an‎d Bound Charge CarriersAbstract; 3.1 Free Charge Carriers; 3.1.1 Derivation of Drudeʹs Formula I; 3.1.2 Derivation of Drudeʹs Formula II; 3.2 The Oscillator Model for Bound Charge Carriers; 3.2.1 General Idea; 3.2.2 Microscopic Fields; 3.2.3 The Clausius-Mossotti an‎d Lorentz-Lorenz-Equations; 3.3 Probing Matter in Different Spectral Regions; 3.4 Spatial Dispersion; 3.5 Attempt of an Illustrative Approach; 4 Derivations from the Oscillator Model; Abstract; 4.1 Natural Linewidth; 4.2 Homogeneous an‎d Inhomogeneous Line Broadening Mechanisms; 4.2.1 General , 4.2.2 Collision Broadening4.2.3 Doppler Broadening; 4.2.4 Brendel Model; 4.3 Oscillators with More Than One Degree of Freedom; 4.4 Sellmeierʹs an‎d Cauchyʹs Formulae; 4.5 Optical Properties of Mixtures; 4.5.1 Motivation an‎d Example; 4.5.2 The Maxwell Garnett, Bruggeman an‎d Lorentz-Lorenz Mixing Models; 4.5.3 Metal-Dielectric Mixtures an‎d Remarks on Surface Plasmons; 4.5.4 Dielectric Mixtures an‎d Wiener Bounds; 4.5.5 The Effect of Pores; 4.5.6 The Refractive Index of Amorphous Silicon in Terms of the Lorentz-Lorenz Approach: A Model Calculation; 5 The Kramers-Kronig Relations; Abstract , 5.1 Derivation of the Kramers-Kronig Relations5.2 Some Conclusions; 5.3 Resume from Chaps. 2 -‎- 4 an‎d this Chapter; 5.3.1 Overview on Main Results; 5.3.2 Problems; Part II Interface Reflection an‎d InterferencePhenomena in Thin Film Systems; 6 Planar Interfaces; Abstract; 6.1 Transmission, Reflection, Absorption an‎d Scattering; 6.1.1 Definitions; 6.1.2 Experimental Aspects; 6.1.3 Remarks on the Absorbance Concept; 6.2 The Effect of Planar Interfaces: Fresnelʹs Formulae; 6.3 Total Reflection of Light; 6.3.1 Conditions of Total Reflection; 6.3.2 Discussion; 6.3.3 Attenuated Total Reflection ATR , 6.4 Metal Surfaces6.4.1 Metallic Reflection; 6.4.2 Propagating Surface Plasmon Polaritons; 6.5 Anisotropic Materials; 6.5.1 Interface Reflection Between an Isotropic an‎d an Anisotropic Material; 6.5.2 Giant Birefringent Optics; 7 Thick Slabs an‎d Thin Films; Abstract; 7.1 Transmittance an‎d Reflectance of a Thick Slab; 7.2 Thick Slabs an‎d Thin Films; 7.3 Spectra of Thin Films; 7.4 Special Cases; 7.4.1 Vanishing Damping; 7.4.2 Halfwave Layers; 7.4.3 Quarterwave Layers; 7.4.4 Free-Stan‎ding Films; 7.4.5 A Single Thin Film on a Thick Substrate; 7.4.6 A Few More Words on Reverse Search Procedures

Subject

Thin films Optical properties. , Spectrum analysis.

ADDED ENTRIES

CO Ohio Library an‎d Information Network. , SE Springer series in surface sciences ; 44. , TI

LC Class

LC Number

176.84

LC CutterNumber

.O7

LC Date

2024

Link To Document

https://dl.iust.ac.ir/dl/search/default.aspx?Term=60060&Field=0&DTC=2