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The Physics of Thin Film Optical Spectra : an Introduction /

The book bridges the gap between fundamental physics courses (such as optics, electrodynamics, quantum mechanics and solid state physics) and highly specialized literature on the spectroscopy, design, and application of optical thin film coatings. Basic knowledge from the above-mentioned courses is...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Stenzel, O. (Olaf) (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Alemán
Publicado: Cham, Switzerland : Springer, [2016]
Edición:Second edition.
Colección:Springer series in surface sciences ; 44.
Temas:
Acceso en línea:Texto completo

MARC

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245 1 4 |a The Physics of Thin Film Optical Spectra :  |b an Introduction /  |c Olaf Stenzel. 
250 |a Second edition. 
264 1 |a Cham, Switzerland :  |b Springer,  |c [2016] 
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490 1 |a Springer series in surface sciences ;  |v 44 
588 0 |a Vendor-supplied metadata. 
504 |a Includes bibliographical references and index. 
505 0 |a 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 Maxwell's Equations; 2.2 The Linear Dielectric Susceptibility; 2.3 Linear Optical Constants; 2.4 Some General Remarks; 2.5 Example: Orientation Polarization and Debye's Equations; 2.6 Energy Dissipation. 
505 8 |a 3 The Classical Treatment of Free and Bound Charge CarriersAbstract; 3.1 Free Charge Carriers; 3.1.1 Derivation of Drude's Formula I; 3.1.2 Derivation of Drude's 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. 
505 8 |a 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 Sellmeier's and Cauchy's 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. 
505 8 |a 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: Fresnel's 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. 
505 8 |a 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. 
520 |a The book bridges the gap between fundamental physics courses (such as optics, electrodynamics, quantum mechanics and solid state physics) and highly specialized literature on the spectroscopy, design, and application of optical thin film coatings. Basic knowledge from the above-mentioned courses is therefore presumed. Starting from fundamental physics, the book enables the reader derive the theory of optical coatings and to apply it to practically important spectroscopic problems. Both classical and semiclassical approaches are included. Examples describe the full range of classical optical coatings in various spectral regions as well as highly specialized new topics such as rugate filters and resonant grating waveguide structures. The second edition has been updated and extended with respect to probing matter in different spectral regions, homogenous and inhomogeneous line broadening mechanisms and the Fresnel formula for the effect of planar interfaces. 
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650 0 |a Thin films  |x Optical properties. 
650 0 |a Spectrum analysis. 
650 6 |a Couches minces  |x Propriétés optiques. 
650 7 |a Laser technology & holography.  |2 bicssc 
650 7 |a Electronic devices & materials.  |2 bicssc 
650 7 |a Materials science.  |2 bicssc 
650 7 |a Spectrum analysis, spectrochemistry, mass spectrometry.  |2 bicssc 
650 7 |a Condensed matter physics (liquid state & solid state physics)  |2 bicssc 
650 7 |a SCIENCE  |x Energy.  |2 bisacsh 
650 7 |a SCIENCE  |x Mechanics  |x General.  |2 bisacsh 
650 7 |a SCIENCE  |x Physics  |x General.  |2 bisacsh 
650 7 |a Spectrum analysis  |2 fast 
650 7 |a Thin films  |x Optical properties  |2 fast 
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