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E-raamat: Fundamentals of Photonics

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(Columbia University, New York), (University of Wisconsin-Madison)
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Fundamentals of Photonics

A complete, thoroughly updated, full-color third edition

Fundamentals of Photonics, Third Edition is a self-contained and up-to-date introductory-level textbook that thoroughly surveys this rapidly expanding area of engineering and applied physics. Featuring a blend of theory and applications, coverage includes detailed accounts of the primary theories of light, including ray optics, wave optics, electromagnetic optics, and photon optics, as well as the interaction of light and matter. Presented at increasing levels of complexity, preliminary sections build toward more advanced topics, such as Fourier optics and holography, photonic-crystal optics, guided-wave and fiber optics, LEDs and lasers, acousto-optic and electro-optic devices, nonlinear optical devices, ultrafast optics, optical interconnects and switches, and optical fiber communications. The third edition features an entirely new chapter on the optics of metals and plasmonic devices. Each chapter contains highlighted equations, exercises, problems, summaries, and selected reading lists. Examples of real systems are included to emphasize the concepts governing applications of current interest. Each of the twenty-four chapters of the second edition has been thoroughly updated.

Fundamentals of Photonics: Part I
Preface To The Third Edition
xi
Preface To The Second Edition
xx
Preface To The First Edition
xxiii
Part I: Optics
1(558)
1 Ray Optics
3(38)
1.1 Postulates of Ray Optics
5(3)
1.2 Simple Optical Components
8(12)
1.3 Graded-Index Optics
20(7)
1.4 Matrix Optics
27(10)
Reading List
37(1)
Problems
38(3)
2 Wave Optics
41(38)
2.1 Postulates of Wave Optics
43(1)
2.2 Monochromatic Waves
44(8)
2.3 Relation Between Wave Optics and Ray Optics
52(1)
2.4 Simple Optical Components
53(8)
2.5 Interference
61(10)
2.6 Polychromatic and Pulsed Light
71(5)
Reading List
76(1)
Problems
77(2)
3 Beam Optics
79(31)
3.1 The Gaussian Beam
80(11)
3.2 Transmission Through Optical Components
91(8)
3.3 Hermite-Gaussian Beams
99(3)
3.4 Laguerre-Gaussian Beams
102(3)
3.5 Nondiffracting Beams
105(3)
Reading List
108(1)
Problems
108(2)
4 Fourier Optics
110(50)
4.1 Propagation of Light in Free Space
113(11)
4.2 Optical Fourier Transform
124(5)
4.3 Diffraction of Light
129(8)
4.4 Image Formation
137(10)
4.5 Holography
147(8)
Reading List
155(2)
Problems
157(3)
5 Electromagnetic Optics
160(49)
5.1 Electromagnetic Theory of Light
162(4)
5.2 Electromagnetic Waves in Dielectric Media
166(6)
5.3 Monochromatic Electromagnetic Waves
172(3)
5.4 Elementary Electromagnetic Waves
175(6)
5.5 Absorption and Dispersion
181(11)
5.6 Scattering of Electromagnetic Waves
192(7)
5.7 Pulse Propagation in Dispersive Media
199(6)
Reading List
205(2)
Problems
207(2)
6 Polarization Optics
209(46)
6.1 Polarization of Light
211(10)
6.2 Reflection and Refraction
221(6)
6.3 Optics of Anisotropic Media
227(13)
6.4 Optical Activity and Magneto-Optics
240(4)
6.5 Optics of Liquid Crystals
244(3)
6.6 Polarization Devices
247(4)
Reading List
251(1)
Problems
252(3)
7 Photonic-Crystal Optics
255(48)
7.1 Optics of Dielectric Layered Media
258(19)
7.2 One-Dimensional Photonic Crystals
277(14)
7.3 Two-and Three-Dimensional Photonic Crystals
291(8)
Reading List
299(2)
Problems
301(2)
8 Metal And Metamaterial Optics
303(50)
8.1 Single-and Double-Negative Media
306(14)
8.2 Metal Optics: Plasmonics
320(14)
8.3 Metamaterial Optics
334(9)
8.4 Transformation Optics
343(6)
Reading List
349(2)
Problems
351(2)
9 Guided-Wave Optics
353(38)
9.1 Planar-Mirror Waveguides
355(8)
9.2 Planar Dielectric Waveguides
363(9)
9.3 Two-Dimensional Waveguides
372(4)
9.4 Optical Coupling in Waveguides
376(9)
9.5 Photonic-Crystal Waveguides
385(1)
9.6 Plasmonic Waveguides
386(3)
Reading List
389(1)
Problems
389(2)
10 Fiber Optics
391(42)
10.1 Guided Rays
393(4)
10.2 Guided Waves
397(18)
10.3 Attenuation and Dispersion
415(11)
10.4 Holey and Photonic-Crystal Fibers
426(3)
10.5 Fiber Materials
429(1)
Reading List
430(2)
Problems
432(1)
11 Resonator Optics
433(40)
11.1 Planar-Mirror Resonators
436(11)
11.2 Spherical-Mirror Resonators
447(12)
11.3 Two-and Three-Dimensional Resonators
459(4)
11.4 Microresonators and Nanoresonators
463(7)
Reading List
470(1)
Problems
471(2)
12 Statistical Optics
473(41)
12.1 Statistical Properties of Random Light
475(14)
12.2 Interference of Partially Coherent Light
489(8)
12.3 Transmission of Partially Coherent Light
497(9)
12.4 Partial Polarization
506(4)
Reading List
510(2)
Problems
512(2)
13 Photon Optics
514(45)
13.1 The Photon
516(13)
13.2 Photon Streams
529(12)
13.3 Quantum States of Light
541(9)
Reading List
550(4)
Problems
554(5)
Fundamentals of Photonics: Part II
Part II: Photonics
559(728)
14 Light And Matter
561(58)
14.1 Energy Levels
562(19)
14.2 Occupation of Energy Levels
581(2)
14.3 Interactions of Photons with Atoms
583(19)
14.4 Thermal Light
602(5)
14.5 Luminescence and Scattering
607(7)
Reading List
614(3)
Problems
617(2)
15 Laser Amplifiers
619(38)
15.1 Theory of Laser Amplification
622(4)
15.2 Amplifier Pumping
626(10)
15.3 Representative Laser Amplifiers
636(9)
15.4 Amplifier Nonlinearity
645(6)
15.5 Amplifier Noise
651(2)
Reading List
653(2)
Problems
655(2)
16 Lasers
657(74)
16.1 Theory of Laser Oscillation
659(7)
16.2 Characteristics of the Laser Output
666(14)
16.3 Types of Lasers
680(27)
16.4 Pulsed Lasers
707(16)
Reading List
723(5)
Problems
728(3)
17 Semiconductor Optics
731(56)
17.1 Semiconductors
733(33)
17.2 Interactions of Photons with Charge Carriers
766(16)
Reading List
782(2)
Problems
784(3)
18 LEDs And Laser Diodes
787(84)
18.1 Light-Emitting Diodes
789(28)
18.2 Semiconductor Optical Amplifiers
817(14)
18.3 Laser Diodes
831(13)
18.4 Quantum-Confined Lasers
844(10)
18.5 Microcavity Lasers
854(8)
18.6 Nanocavity Lasers
862(2)
Reading List
864(4)
Problems
868(3)
19 Photodetectors
871(72)
19.1 Photodetectors
873(10)
19.2 Photoconductors
883(4)
19.3 Photodiodes
887(8)
19.4 Avalanche Photodiodes
895(12)
19.5 Array Detectors
907(2)
19.6 Noise in Photodetectors
909(26)
Reading List
935(3)
Problems
938(5)
20 Acousto-Optics
943(32)
20.1 Interaction of Light and Sound
945(13)
20.2 Acousto-Optic Devices
958(9)
20.3 Acousto-Optics of Anisotropic Media
967(5)
Reading List
972(1)
Problems
972(3)
21 Electro-Optics
975(40)
21.1 Principles of Electro-Optics
977(12)
21.2 Electro-Optics of Anisotropic Media
989(7)
21.3 Electro-Optics of Liquid Crystals
996(9)
21.4 Photorefractivity
1005(5)
21.5 Electroabsorption
1010(2)
Reading List
1012(1)
Problems
1013(2)
22 Nonlinear Optics
1015(63)
22.1 Nonlinear Optical Media
1017(4)
22.2 Second-Order Nonlinear Optics
1021(15)
22.3 Third-Order Nonlinear Optics
1036(11)
22.4 Second-Order Nonlinear Optics: Coupled Waves
1047(12)
22.5 Third-Order Nonlinear Optics: Coupled Waves
1059(7)
22.6 Anisotropic Nonlinear Media
1066(3)
22.7 Dispersive Nonlinear Media
1069(5)
Reading List
1074(1)
Problems
1075(3)
23 Ultrafast Optics
1078(85)
23.1 Pulse Characteristics
1079(9)
23.2 Pulse Shaping and Compression
1088(14)
23.3 Pulse Propagation in Optical Fibers
1102(13)
23.4 Ultrafast Linear Optics
1115(11)
23.5 Ultrafast Nonlinear Optics
1126(20)
23.6 Pulse Detection
1146(13)
Reading List
1159(2)
Problems
1161(2)
24 Optical Interconnects And Switches
1163(61)
24.1 Optical Interconnects
1166(12)
24.2 Passive Optical Routers
1178(9)
24.3 Photonic Switches
1187(24)
24.4 Photonic Logic Gates
1211(9)
Reading List
1220(2)
Problems
1222(2)
25 Optical Fiber Communications
1224(63)
25.1 Fiber-Optic Components
1226(12)
25.2 Optical Fiber Communication Systems
1238(19)
25.3 Modulation and Multiplexing
1257(9)
25.4 Coherent Optical Communications
1266(8)
25.5 Fiber-Optic Networks
1274(7)
Reading List
1281(3)
Problems
1284(3)
A Fourier Transform
1287(9)
A.1 One-Dimensional Fourier Transform
1287(3)
A.2 Time Duration and Spectral Width
1290(3)
A.3 Two-Dimensional Fourier Transform
1293(2)
Reading List
1295(1)
B Linear Systems
1296(5)
B.1 One-Dimensional Linear Systems
1296(3)
B.2 Two-Dimensional Linear Systems
1299(1)
Reading List
1300(1)
C Modes Of Linear Systems
1301(4)
Reading List
1305(1)
Symbols And Units
1306(25)
Authors
1331(2)
Index
1333
BAHAA E. A. SALEH, PhD, has been Distinguished Professor and Dean of CREOL, The College of Optics and Photonics at the University of Central Florida, since 2009. He is also Professor Emeritus at Boston University. Saleh is the author of Photoelectron Statistics and Introduction to Subsurface Imaging, and is the Founding Editor of Advances in Optics and Photonics. He is a Fellow of APS, IEEE, SPIE, and OSA, and is the recipient of the OSA Beller Medal, the OSA Mees Medal, the SPIE BACUS Award, and the Kuwait Prize.

MALVIN CARL TEICH, PhD, is Professor Emeritus at Boston University and Columbia University, and a member of the Boston University Photonics Center. He is the coauthor of Fractal-Based Point Processes and is a Fellow of the IEEE, OSA, SPIE, APS, AAAS, and ASA. He is the recipient of the IEEE Browder J. Thompson Memorial Prize Award, the IEEE Morris E. Leeds Award, the Memorial Gold Medal of Palacký University, and the Distinguished Scholar Award of Boston University.
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