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Young M. — Optics and Lasers: Including Fibers and Optical Waveguides
Young M. — Optics and Lasers: Including Fibers and Optical Waveguides



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Название: Optics and Lasers: Including Fibers and Optical Waveguides

Автор: Young M.

Аннотация:

Optics and Lasers is an introduction to applied optics, covering elementary ray and wave optics as well as lasers, holography, fibers, optical waveguides, integrated optics, and quantum noise. Further chapters deal with the physical principles of optical instruments, light sources, and detectors. Numerous examples and exercises with complete solutions help the readers to deepen their knowledge.
This completely revised and enlarged edition is intended for advanced undergraduates in laser physics and engineering but will also be helpful for active scientists.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 1st edition

Год издания: 1992

Количество страниц: 498

Добавлена в каталог: 17.11.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Diffraction pattern      see “Diffraction”
Diffraction, and resolution limit      3.1 3.8
Diffraction, Babinet's principle in      5.5.5
Diffraction, by circular aperture      5.5.1
Diffraction, by straight edge      5.5.3
Diffraction, far-field      5.5 5.5.4
Diffraction, Fraunhofer      5.5 5.5.1 5.5.4 5.5.5 5.7.1
Diffraction, Fresnel      5.5.3 5.5.4
Diffraction, near-field      5.5.4
Diffraction, of gaussian beam      8.3.3
Diffraction, single-slit      5.5.1 6.1.1
Diffraction, zero-order      5.5.2 6.1.1 7.2.2 7.2.5
Diffraction-limited      3.8 5.7.1 5.7.5 7.2.7 7.3.1 7.3.2 7.3.3 8.5
Diffuse reflector      4.1.5
Diffuser      4.1.5 5.7.3
Diffuser, moving      5.7.4
Diffuser, nonrandom      5.7.3
Digital filter      7.4.3
Digital image processing      1 3.6 7.4
Dimensional measurement      7.4.5
Diode      see “Photodiode”
Diopter      3.1
Dipole      9.1 9.2
Dipole moment per unit volume      9.1.1 9.3
Direct positive      3.2.1
Directional coupler      6.2.2 12.1 12.1.3 12.1.5 see
dispersion      1 2.1.2 11.3
Dispersion, material      11.3.2
Dispersion, waveguide      11.3.3 see
Dispersive medium, group index of      5.2.2
Display      9.2.6 see also “Liquid crystal”
Distortion (in lens)      2.2.12
Distortion (in optical fibers)      11.3
Distortion (in optical fibers), intermodal      11.3.1
Distortion (in optical fibers), intramodal      11.3.1—3
Distortion, perspective Problem      3.6
Distributed-feedback laser      12.1.4
Divergence due to diffraction      5.5 5.5.4
Donor level      4.3.1
Doppler effect      4.2.3
Doppler shift      9.4.4
Double-slit experiment      1 5.3.1
Duration (of laser pulse)      8.2.3
Duration (of pulse in fiber)      11.3.4
Dye laser      see “Laser”
Dynode      4.3.1
Edge enhancement      7.2.4 7.4.3
Edge response      7.3.2 7.3.3 7.4.5
Edge ringing      7.3.2 7.3.3
Edge-emitting laser      12.2.5 see semiconductor”
Edge-finding level      7.3.2 7.4.5
Effective F-number      2.2.9 3.2.4 4.1.7
Effective focal length      2.2.4
Effective index of refraction      10.2.1 12.1.2 12.2.1 12.2.3
Effective reflectance      8.3.1
electric field      5.2
Electric-field vector      9 9.1.3
Electro-optic effect      see “Kerr effect”
Electro-optic modulator      9.4.3 12.1.6
Electro-optic shutter      8.4.1 8.4.2 9.4.1
Electro-optics      9.4.1 9.4.3
Electromagnetic theory      5.1.2 5.4.1 5.5.1 8 9.1.6 10.2 10.3.3
Electromagnetic waves      5.2 9.1.1
Electron      4.2.3 4.2.4 4.3.1 9.1.7
Electron, secondary      4.3.1
Emissivity      4.2 1
Emissivity of various infrared sources      4.2.1
Empty magnification      see “Magnifying power”
Emulsion, photographic      3.2.1 7.1.4
Emulsion, relative spectral sensitivity of      3.2.1
Energy level      4.2.3 8.1.1 8.4.1 8.4.3
Enlarger      3.3
enlarging      3.2.1
Equilibrium length      10.3.5
Equilibrium mode distribution      10.3.5 11.4 see
Equilibrium mode simulator      11.1 11.1.2 11.2.1
Equivalent refracting surface      2.2.7 see
Erecting lens      3.7.3
Evanescent wave      9.1.5 10.3.3 10.3.5
Evolution      3.1
Excited state      4.2.3
Excited system      8.1.1
Excited system time      3.2.2
Exposure      3.2.2
Extended source      4.1.4
Extraordinary ray      9.2.1—3
eye      1 3.1 3.7.1 4.1.2 4.1.7 8.5
Eye lens      3.7.2
Eye relief      3.7.2 3.7.3
Eye, adaptation of      3.1
Eye, angular resolution limit of      3.8.2 3.8.3
Eye, laser damage to      8.5
Eye, luminous efficiency of      4.1.2
Eye, principal points of      3.1
Eye, relative sensitivity of      3.1 4.1.2
Eye, resolution limit of      3.1
Eyepiece      2.2.4 3.5 3.7 3.7.3
Eyepiece, Huygens      2.2.4
f-number      2.2.9 2.2.13 3.2.2 5.7.5 6.1
F-number, effective      2.2.9 3.2.4 4.1.7
F-stop      3.2.2
Fabry — Perot interferometer      6.3 6.4.3 8.3.1 see
Fabry — Perot interferometer, free spectral range of      6.3.2
Fabry — Perot interferometer, spherical confocal      6.3.3
Far- sightedness      3.1
Far-field diffraction      1 5.5.4
Faraday effect      9.4.5
Faraday rotator      9.4.5
Fermat's principle      5.5.6 10.3.1 12.2.2
Fermi level      4.2.4
Fiber      see “Optical fiber” “Optical
Fiber interferometer      6.2.2
Fiber sensor      6.2.2
Field (video)      7.4.1
Field curvature      2.2.12
Field glasses      3.7.3
Field lens      3.7.2 3.7.3
Field of view      3.2
Field stop      3.2 3.7.2 3.7.3
Field, angular      2.2.12 3.7.2
Fifth-order aberration      2.2.12
Filling the aperture      3.3
Film (photographic)      3.2 3.2.1—3
Film (photographic), copy      3.2.3
Film (photographic), line-copy      3.2.2
Film (photographic), MTF of      7.3.8
Film (photographic), orthochromatic      3.2.1
Film (photographic), panchromatic      3.2.1
Film (photographic), resolving power of      3.2.3
Filter      6.4.3 7.4.1
Filter, deblurring      7.3.4
Filter, digital      7.4.3
Filter, high-pass      7.2.4 7.4.1 7.4.3
Filter, infrared cutting      7.4.1 7.4.4
Filter, interference      1 6.4.3
Filter, low-pass      7.2.4 7.4.3
Filter, matched      7.2.6 7.4.1
Filter, metal-dielectric-metal (MDM)      6.4.3
Filter, nonlinear      7.4.2
Filter, spatial      7.2.4
Finesse      6.3.1 6.3.2 12.1.5
fixation      3.1
Fixer      3.2.1
Flare light      7.1.1
Flashlamp      8.2 8.2.1
Flashtube      8.4.1
Flicker noise      4.3.3
fluorescent light      8 8.1
Flux      8.1.1 see also “Radiant power”
Focal length      2.2.4
Focal length of mirror      2.2.6
Focal length of thick lens      2.2.7
Focal length of thick mirror Problem      2.4
Focal length of thin lens and mirror Problem      2.4
Focal length of two thin lenses      2.2.4
Focal length, back      2.2.7
Focal length, effective      2.2.4
Focal length, primary      2.2.4
Focal length, secondary      2.2.4
Focal plane      see “Focal point”
Focal point      2.2.4
Focal point of mirror      2.2.6
Focal point, primary      2.2.4
Focal point, secondary      2.2.4
focal ratio      see “F-number”
Focusing method      11.5.1
Forbidden gap      4.2.4 4.3.1 see
Forbidden transition      4.2.3
Fourier series      7.2.1 7.2.2
Fourier synthesis      
Fourier transform      6.2 7.2.2 7.2.3 7.3.1 7.3.4 7.3.5 7.4.1 12.2
Fourier-transform optics      1 7.2.3 7.2.6
Fourier-transform spectroscopy      6.2
Fovea centralis      3.1
Frame (video)      7.4.1
Frame (video) digitizer      3.5 7.4.1
Fraunhofer diffraction      see “Diffraction”
Fraunhofer wavelength      2.1.2
Free spectral range      6.3.2 8.3.1
Free spectral range, Problem      6.3
frequency      4.2.3 5.1 5.1.1
Frequency domain      11.3.4 see electrical”
Frequency doubling      8.4.2
Frequency plane      7.2.1 7.2.2 7.2.4—6
Frequency response curve      11.3.4
Frequency response, electrical      10.1
Frequency up conversion      9.3.3
Fresnel biprism Problem      5.3
Fresnel diffraction      see “Diffraction”
Fresnel lens      3.3
Fresnel zone      5.5.3 5.5.4
Fresnel zone plate      1 see also “Zone plate”
Fresnel's laws      9.1.3 9.1.4
FresnePs construction      5.5.3 7.1.2
Gain      4.3.1 8.1 8.2.1 8.2.3
Gallium arsenide      4.2.4 8.4.8 12.1 12.1.4 12.2.5 see semiconductor” “Light-emitting
Gamma      3.2.2
Gaussian beam      1 8.3.2 8.3.3 10.2.6 10.4.2
Gaussian beam, depth of focus of Problem      8.3
Gaussian beam, divergence of      8.3.3
Gaussian beam, radius of curvature of      8.3.3
Geodesic lens      12.2.3
Geometric (or geometrical) optics      1 see
Germanium      4.3.1
Giant-pulse laser      see “Laser” “Q-switched”
Glan — Thompson prism      9.2.3
Glass laser      see “Laser”
Glass, absorptance of      4.2.1
Glass, index of refraction of      2.1.2
Glass, Kerr constant of      9.4.1
Glass, lead      9.4.5
Glass, slab of Problem      2.2
Glass, Verdet constant of      9.4.5
Goos — Haenchen shift      9.1.6 see
Graded-index fiber      see “Optical fiber”
Graded-index lens      12.2.2
Graded-index waveguide      see “Optical waveguide”
Grains (in emulsion)      3.2.1 3.2.3
Grating (in optical processing)      7.2.1 7.2.2 7.3.7 7.4.4 see
Grating coupler      10.2.3 10.2.4
Grating equation      5.3.2 6.1 7.3.7
Graybody      4.2.1 4.2.2 see
Ground glass      4.1.5 5.7.4
Ground state      4.2.3
Group delay      11.3.2 11.3.3
Group index of refraction      5.2.1 11.3.2
Group velocity      5.2.1 11.3.3
H and D curve      3.2.2 see
Half-period zone      see “Fresnel zone”
Half-wave plate      9.2.2
Half-wave voltage      9.4.1 9.4.3
Hand lens      see “Magnifying lens”
Hard clipping      7.4.2
Harmonic generation      9.3
Harmonic generation, second      9.3 9.3.1 9.3.2
Harmonic generation, third      9.3
Harmonics      7.2.2 see
Helium-cadmium laser      see “Laser”
Helium-neon laser      see “Laser”
Hemisphere, power radiated into      4.1.4
Hermite polynomial      8.3.3
hnu      see “Lagrange invariant”
hole      4.2.4 4.3.1
Hologram      7.1
Hologram, amplitude      7.1.3
Hologram, diffraction efficiency of      7.1.3 7.1.4
Hologram, effect of emulsion thickness on      7.1.4
Hologram, Fourier-transform      7.2.6
Hologram, image-plane      7.1.4
Hologram, Lippmann — Bragg      7.1.4
Hologram, phase      7.1.3
Hologram, reflection      7.1.4
Hologram, thick      7.1.4
Hologram, white-light      7.1.4
Holography      1 7.1 7.1.1
Holography, off-axis      7.1.1
Huygens eyepiece      2.2.4
Huygens's construction      5.5 5.5.1 5.5.3 9.2.1
Hybrid      12.1
Hyperfocal distance      3.2.4
Hyperopia      3.1
Hypo      3.2.1
III-V compound      12.1 12.1.2
Illuminance      3.2.2 4.1.1 4.1.2 see “Illumination”
Illuminance of image      4.1.7
Illuminance, critical      3.8.4
Illuminance, dark-field Problem      7.5
Illuminance, diffused, coherent      5.7.3
Illuminance, incoherent      5.7.1 7.4.5
Illuminance, Koehler      3.8.4
Illuminance, retinal      4.1.7
Illuminance, specular, coherent      5.7.2
Image      2.2.2
Image distance      2.2.2 2.2.7
Image processing      1 3.6.1
Image restoration      7.3.4
Image space      2.2.1
Image, construction of      2.2.8
Image, real      2.2.5
Image, virtual      2.2.5
Image-plane hologram      see “Hologram”
Imaging      2.2
Imaging in coherent and incoherent light      5.7
Impulse response      7.3.1 7.3.2—5 7.4.5
Impulse response of scanning confocal microscope      7.3.3
Inclination factor      see “Obliguity factor”
Incoherence      5.6 7.3.1 7.4.5 see
Index of refraction      2.1.1 2.1.2 9.1.2—6
Index of refraction as function of wavelength      2.1.1
Index of refraction, effective      10.2.1 12.1.2 12.2.1 12.2.3
Index of refraction, group      5.2.2 11.3.2
Index of refraction, relative      9.1.4
Index profile      10.3.1 11.5
Index profile measurements      11.5
Indium antimonide      4.3.1
Induced emission      see “Stimulated emission”
Infinity corrected      3.5
Infrared      3.2.1
Inhibition      3.1
Injection      4.2.4
1 2 3 4 5 6
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