| 청구기호 |
QC355.3 |
| 형태사항 |
1 online resource : illustrations
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| 언어 |
English |
| 서지주기 |
Includes bibliographical references.
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| 내용 |
Front Cover; Basic Optics: Principles and Concepts; Copyright; Dedication; Contents; Acknowledgments; Chapter 1: Electromagnetic Theory and Optics; 1.1 Introduction; 1.2 Maxwell's Equations in Material Media and in Free Space; 1.2.1 Electromagnetic Field Variables; 1.2.1.1 Digression: The naming of the field variables; 1.2.1.2 Digression: The naming of the field variables and their space-time variations in optics; 1.2.2 Maxwell's Equations; 1.2.3 Material Media and the Constitutive Relations; 1.2.3.1 Linear media; Digression: tensors and tensor fields; 1.2.3.2 Nonlinear media.
1.2.4 Integral Form of Maxwell's Equations1.2.5 Boundary Conditions Across a Surface; 1.2.6 The Electromagnetic Field in Free Space; 1.2.7 Microscopic and Macroscopic Variables for a Material Medium; 1.3 Digression: Vector Differential Operators; 1.3.1 Curvilinear Coordinates; 1.3.2 The Differential Operators; 1.4 Electromagnetic Potentials; 1.4.1 Gauge Transformations; 1.4.2 The Lorentz Gauge and the Inhomogeneous Wave Equation; 1.4.3 The Homogeneous Wave Equation in a Source-Free Region; 1.5 The Hertz Vector Representation; 1.6 The Principle of Superposition; 1.7 The Complex Representation.
1.8 Energy Density and Energy Flux1.8.1 Energy Density; 1.8.2 Poynting's Theorem: The Poynting Vector; 1.8.3 Intensity at a Point; 1.9 Optical Fields: An Overview; 1.10 The Uniqueness Theorem; 1.11 Simple Solutions to Maxwell's Equations; 1.11.1 Overview; 1.11.2 Harmonic Time Dependence; 1.11.2.1 Fictitious magnetic charges and currents; 1.11.2.2 The Helmholtz equations; 1.12 The Monochromatic Plane Wave; 1.12.1 Monochromatic Plane Waves in Free Space; 1.12.2 Plane Waves in an Isotropic Dielectric; 1.12.3 Energy Density and Intensity for a Monochromatic Plane Wave.
1.13 States of Polarization of a Plane Wave1.13.1 Linear, Circular, and Elliptic Polarization; 1.13.2 States of Polarization: Summary; 1.13.3 Intensity of a Polarized Plane Wave; 1.13.4 Polarized and Unpolarized Waves; 1.14 Reflection and Refraction at a Planar Interface; 1.14.1 The Fields and the Boundary Conditions; 1.14.2 The Laws of Reflection and Refraction; 1.14.3 The Fresnel Formulae; 1.14.3.1 Setting up the problem; 1.14.3.2 Perpendicular polarization; Phase change in reflection; 1.14.3.3 Parallel polarization: Brewster's angle; Brewster's angle.
Parallel polarization: Phase change on reflectionThe case of normal incidence; 1.15 Total Internal Reflection; 1.16 Plane Waves: Significance in Electromagnetic Theory and Optics; 1.17 Electromagnetic Waves in Dispersive Media; 1.17.1 Susceptibility and Refractive Index in an Isotropic Dielectric; 1.17.1.1 Introduction: The context; 1.17.1.2 Dispersion: The basic equations; 1.17.2 Dispersion: Further Considerations; 1.17.2.1 The local field: Clausius-Mossotti relation; 1.17.2.2 Dispersion: The general formula; 1.17.2.3 The distribution of resonant frequencies.
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| 주제 |
Optics.
SCIENCE --Physics --Optics & Light. --bisacsh
Optics. --fast --(OCoLC)fst01046845
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| 보유판 및 특별호 저록 |
Print version: 9780128053577 0128053577
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| LCCN |
2016930637
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| ISBN |
9780128093078, 0128093072, 9780128053577
, 0128053577
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| QR CODE |
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