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Field Guide to Optoelectronics and Photonics [Spiraalköide]

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  • Formaat: Spiral bound, 124 pages, kaal: 174 g
  • Sari: Field Guides
  • Ilmumisaeg: 30-Apr-2022
  • Kirjastus: SPIE Press
  • ISBN-10: 1510644148
  • ISBN-13: 9781510644144
Teised raamatud teemal:
Field Guide to Optoelectronics and PhotonicsSuurem pilt
  • Formaat: Spiral bound, 124 pages, kaal: 174 g
  • Sari: Field Guides
  • Ilmumisaeg: 30-Apr-2022
  • Kirjastus: SPIE Press
  • ISBN-10: 1510644148
  • ISBN-13: 9781510644144
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781510644144.html
Märksõnad:
"This Field Guide covers the physics of semiconductors, from the materials used in optoelectronics and photonics to charge statistics and transport to PN junctions and their applications. It then addresses the physics of the interactions between radiation and matter at different levels--macroscopic, microscopic, and quantum level--and includes the fundamental concepts of waveguides, fiber optics, and photonics devices such as light modulators. It finally highlights important applications of the field in engineering and applied physics. The guide summarizes the scientific and engineering foundations of optoelectronics and photonics and thus can be used as a textbook for college students, although it could be useful for practicing scientists and engineers as well"--
Preface xi
Glossary of Symbols xiii
Semiconductor Optics and Optoelectronics I: Fundamentals
1(10)
Maxwell's Equations
1(1)
Electromagnetic Radiation in Vacuum
2(1)
Electromagnetic Radiation in Matter
3(1)
Band Theory: Origin of Energy Bands
4(1)
Band Theory: Classification of Materials
5(1)
Crystallographic Considerations
6(1)
Dispersion Relations
7(1)
Definition of the Photon
8(1)
Common Examples of Semiconductors in Optoelectronics
9(1)
Temperature Dependency
10(1)
Semiconductor Optics and Optoelectronics II: Charge Carrier Statistics
11(11)
Electron Configuration
11(1)
Hund's Rule and Pauli's Exclusion Principle
12(1)
FOechkowsky's Rule (Madelung's Rule)
13(1)
Semiconductor Charge Carriers: Energy Bands
14(1)
Fermi Level
15(1)
Fermi-Dirac Distribution Function
16(1)
Fermi Level and Band Theory
17(1)
Density of States
18(1)
Occupation Probabilities
19(1)
n-Doped and p-Doped Semiconductors
20(1)
Example of Doping: Silicon
21(1)
Semiconductor Optics and Optoelectronics III: Transport Properties
22(6)
Mobility
22(1)
Conduction
23(1)
Diffusion
24(1)
Total Current
25(1)
Generation and Recombination: Radiative and Nonradiative
26(1)
Continuity Equations for Carriers
27(1)
p-n Junction
28(9)
Homogeneous Semiconductor
28(1)
Nonhomogeneous Semiconductor
29(1)
Thermodynamic Equilibrium in p-n Junctions: Bands and Carriers
30(1)
Depletion Region
31(1)
Diffusion Voltage and Potential Barrier
32(1)
p-n Junction Bias: Diode
33(1)
Forward and Reverse Bias
34(1)
I-V Characteristics
35(1)
Heterojunctions
36(1)
Macroscopic Light-Matter Interaction
37(13)
Boundary Conditions
37(1)
Reflection and Refraction
38(1)
Noether's Theorem
39(1)
Conservation Laws
40(1)
Light Polarization
41(1)
Fresnel Formulae: Interfaces
42(1)
Extinction and Absorption of Light
43(1)
Transmission
44(1)
Birefringence
45(1)
Dichroism
46(1)
Filters
47(1)
Thin Film Filters
48(1)
Fabry-Perot Modes
49(1)
Microscopic and Quantum Light-Matter Interaction
50(7)
Absorption
50(1)
Scattering
51(1)
Scales in MIE and Rayleigh Scattering
52(1)
Spontaneous Emission
53(1)
Stimulated Emission
54(1)
Plasmons
55(1)
Quantum Dots
56(1)
Optical Waveguides
57(9)
Light-Guiding Mechanisms
57(1)
Planar Waveguides
58(1)
Waveguide Coupling
59(1)
Diffractive Elements in Waveguides
60(1)
Optical Fibers
61(1)
Light Propagation in Optical Fibers: Multimode
62(1)
Few-Mode, and Single-Mode Microstructured Optical Fibers: Hollow-Core and Photonic Bandgap Fibers
63(1)
Fiber Bundles
64(1)
Diffractive Elements in Optical Fibers
65(1)
Optoelectronic Devices
66(8)
Light-Emitting Diodes (LEDs)
66(1)
LED Efficiency
67(1)
Semiconductor Laser Diodes
68(1)
Diode-Pumped Solid-State Lasers (DPSSLs)
69(1)
Fiber Lasers
70(1)
Photodiodes
71(1)
Avalanche Photodiodes
72(1)
Photomultiplier Tubes
73(1)
Photonics and Its Applications: Devices
74(8)
Solar Cells
74(1)
Practical Use of Solar Cells
75(1)
Organic Photovoltaic Devices and Organic LEDs
76(1)
Optical Modulators: Acousto-optic and Electro-optic
77(1)
Spatial Light Modulators (SLMs)
78(1)
Optical Fiber Devices
79(1)
Optical Fiber Sensors
80(1)
Photonic Lanterns
81(1)
Photonics: Applications of Its Physical Properties
82(11)
Photonic Crystals
82(1)
Parametric Conversion
83(1)
UV-VIS Spectroscopy
84(1)
FTIR Spectroscopy
85(1)
Raman Spectroscopy
86(1)
Surface Plasmon Resonance Sensors
87(1)
Optical Time-Domain Reflectometry (OTDR)
88(1)
Distributed Optical Fiber Sensors
89(1)
Laser Micromachining I: Ablation
90(1)
Laser Micromachining II: Photopolymerization
91(1)
Laser Micromachining III: Two-Photon Polymerization
92(1)
Equation Summary 93(6)
Bibliography of Further Reading 99(2)
Index 101