Young M. — Optics and Lasers: Including Fibers and Optical Waveguides :: Электронная библиотека попечительского совета мехмата МГУ

Главная Ex Libris Книги Журналы Статьи Серии Каталог Wanted Загрузка ХудЛит Справка Поиск по индексам Поиск Форум

Авторизация

Поиск по указателям

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

Обсудите книгу на научном форуме

Нашли опечатку?
Выделите ее мышкой и нажмите Ctrl+Enter

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:

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

Предметный указатель

Ray, bound      10.3.3
Ray, leaky      10.2.4 10.3.3
Ray, meridional      10.2.4
Ray, refracted      10.3.3
Ray, skew      10.2.4
Rayleigh criterion      5.7.1 6.1.1
Rayleigh limit      5.7.1 5.7.3
Rayleigh range Problem      8.3
Rayleigh scattering      11.2 11.2.1
Receiver      12.1
Reciprocity failure      3.2.2
Reciprocity law      3.2.2
Recombination radiation      4.2.3
Reconstruction      7.1 7.1.1
Reconstruction, conjugate      7.1 7.1.2
Reconstruction, minimum angle of      7.1.1
Reconstruction, primary      7.1 7.1.2
Reconstruction, virtual      7.1.1
Reference beam      7.1 7.1.1 7.2.6
Reflectance      5.4.2 9.1.3
Reflectance of silver and aluminum      9.1.7
Reflectance, amplitude      5.4.2 9.1.3
Reflectance, effective, of resonator mirror      8.3.1
Reflection      2.1.3 9.1.3
Reflection from metal      9.1.7
Reflection hologram      see “Hologram”
Reflection, angle of      2.1.3
Reflection, frustrated total internal      9.1.5
Reflection, law of      2.1.3 2.2.2
Reflection, phase change on      5.4.1 7.4.5 9.1.3
Reflection, total internal      2.1.4 9.1.5
Refracted near-field scanning      see “Refracted-ray method”
Refracted-ray method      1 11.5.4 11.5.5
Refraction      2.1.1
Refraction, angle of      2.1.1 2.2.1
Refraction, index of      see “Index of refraction”
Refraction, internal      2.1.4
Refraction, law of      2.1.1
Refractive index      see “Index of refraction”
Relative aperture      3.2.2 6.1 see
Relative intensity noise      4.3.3
Relaxation oscillations      4.3.3
Relay lens      3.7.3
Resolution      3.8
Resolution limit      1 3.2.3 3.2.4 3.8 3.9 5.7 5.7.1 7.2.7 7.3.5 7.3.7 7.4.5 see
Resolution limit in coherent light      5.7.2
Resolution limit in diffused, coherent light      5.7.3
Resolution limit in incoherent light      5.7.1
Resolution limit of camera      3.8.1
Resolution limit of eye      3.1 3.8.2
Resolution limit of microscope      3.8.3
Resolution limit of NSOM      3.9
Resolution limit of photographic film      3.2.3
Resolution limit of pinhole camera      5.5.4
Resolution limit of points      5.7.1 5.7.2
Resolution limit of refracted-ray method      11.5.4
Resolution limit of telescope      3.8.2
Resolution limit, angular, of eye      3.8.2
Resolution limit, coherent      5.7.2
Resolution limit, theoretical      3.8 5.7
Resolution target      5.7.3 7.2.4
Resolution, Abbe theory of      7.2.1 Problem
Resolution, of hologram      7.1.1 Problem
Resolution, spurious      7.3.5
Resolution, two-point      5.7.1
Resolving power      3.2.3 3.8 7.1.1 7.3.7 see “Resolution
Resolving power of camera      3.8.1
Resolving power of film      3.2.3
Resolving power of microscope      3.8.3—4
Resolving power of refracted-ray method      11.5.4
Resolving power of telescope      3.8.2
Resonators      see “Optical resonators”
Response time      4.3.3
Response time of bolometer      4.3.3
Response time of photoconductor      4.3.3
Response time of photodiode      4.3.3
Response time of thermocouple      4.3.3
Response time of thermopile      4.3.3
Responsivity      4.3.3
Responsivity, of photocathodes (graph)      4.3.3
Responsivity, spectral      4.3.3
Restricted launch      10.3.4
retina      3.1 8.5
Retroflector      2.1.5
Reverse bias      4.3.1
Reverse telephoto lens Problem      2.5
Ribbon-filament lamp      3.8.4 11.1.1
RIN      4.3.3
Rods      3.1
Rowland circle      6.1
Rowland circle, Problem      12.7
Ruby laser see      “Laser”
Ruling      6.1.1
Safe light      3.2.1
Safety, laser      8.5
Sag formula      5.5.3 7.2.7
Sampling      7.4.4
Sampling theorem      7.4.4
SAPpHiRe      8.4.1
Saturable dye      8.4.1 8.4.2
SAW wave      12.1.6
Scalar equation      5.2
Scanning confocal microscope      1 3.6 7.3.3
Scanning confocal microscope, impulse response of      7.3.3
Scanning confocal microscope, Nipkow disk in      3.6.1
Scattering      11.2
Scientist, near-sighted Problem      3.8
Scotopic      3.1
Second harmonic generation      see “Harmonic generation”
Secondary electron      4.3.1
Secondary maximum      5.3.2 5.5.1 5.7.2
Secondary maximum, apodization of Problem      7.8
Seidel aberration      2.2.12
Selenium cell      4.3.1
Semiconductor      4.2.4 4.3.1
Semiconductor laser      see Laser see
Semiconductor, doped      4.2.4 4.3.1
Semiconductor, energy-level structure of      4.3.1
Semiconductor, impurity      4.3.1
Semiconductor, intrinsic      4.3.1
Semiconductor, n type      4.3.1
Semiconductor, p type      4.3.1
Senile macular degeneration      8.5.1
Sensitivity      see “Responsivity”
Sensitizing dye      3.2.1
Sensitometry      3.2.2
Serpentine-bend mode filter      11.1.2
Shape factor      5.7.5
Shortest distance of distinct vision      see “Near point”
Shot noise      4.3.3
Shoulder (of D vs $log\mathscr{E}$ curve)      3.2.2
Shoulder of microscope objective      3.5
Shutter      3.2.2
shutter speed      3.2.2
Shutter, acousto-optic      8.4.1
Shutter, electro-optic      8.4.1
Shutter, passive      8.4.1
Sign convention      2.2.1 2.2.2 2.2.3
Silicon cell      4.3.1
Silver      9.1.7
Silver halide      3.2.1
Silver image      3.2.1
Sine condition      2.2.11
Sine function      7.3.1
Single-mode waveguide      1 10.2.6 10.4.2
Single-pixel operation      7.4.2
Skew ray      10.2.4 10.3.5 see
Sky, emissivity of      4.2.1
Slab interference microscopy      11.5.2
Slab of glass Problem      2.2

Slide projector      3.3
Slit      see “Diffraction” “Diffraction
Snell's law      2.1.1 9.1.2 9.2.1
Snell's law in layered media      10.3.1
Solar cell      4.3.1
Solid angle      4.1.1
Sombrero function      7.3.1 7.3.3
Source      4.2 see “Blackbody” “Laser”
Source of blackbody radiation      4.2.1
Source, emissivity of      4.2.1
Source, quasi-thermal      5.7.4
Source, thermal      4.2
Source, thermal, coherence of      5.6
Spatial coherence      see “Coherence”
Spatial filter      7.2.1 7.2.4
Spatial filtering      1 7.2.4
Spatial frequency      7.2.2 7.4.4
Spatial light modulator      7.2.4
Specific detectivity      see “ ${D}^{*}$ ”
Speckle      5.7.3. 5.7.4
Speckle noise Problem      5.16
Spectral lines, table      4.2.3
Spectral mode      see “Mode”
Spectral radiance      4.1.1
Spectral range      see “Free spectral range”
Spectral responsivity      4.3.3
Spectral sensitivity of eye      3.1
Spectral width      5.6.1 6.2
Spectrometer      6.1
Spectrometer, grating      6.1
Spectrum      2.1.2 3.1
Spectrum analyzer      1 12.2
Spectrum of blackbodies      4.2.1
Spectrum, angular      7.3.7
Spectrum, line      4.2.3
Spectrum, visible      3.1
Specular illumination      5.7.2 7.3.2
speed of light      5.1.1 see
Speed of response      4.3.3
Spherical aberration Problem      2.10 2.2.12 2.2.13 3.5
Spherical refracting surface      2.2.1 5.5.6
Spiking      4.4.3 8.4.1 8.4.4
Splice      1 10.4 “Coupler”
Spontaneous emission      4.2.3 8.1 8.2.1
Spontaneous-emission lifetime      8.2.1
Spot size      8.3.3 see also “Beam waist” “Beam
Spurious resolution      7.3.5
Square-law detector      5.1.1
Square-law profile      see “Parabolic profile”
Stability diagram      8.3.4
Stability parameters      8.3.3
Star coupler      10.4.3 12.1.3
State      see “Energy level”
Stefan — Boltzmann constant      4.2.1
Stefan's law      4.2.1
Step-index fiber, defined      10.3 see
Stimulated emission      8 8.1.1 8.2.1
Stops, iris diaphragms calibrated in      3.2.2 see also “Aperture stop” “Field “Pupil”
Straight edge, diffraction by      5.5.3
Strip waveguide      see “Optical waveguide”
Substrate, various      12.1
Sugar solution      9.2.5
Sun      4.2.1 8.5
sunglasses      8.5.1
Superpolished substrate      6.3.3
Superposition of waves      5.2
Surface-acoustic wave (SAW)      12.1.6
Surface-emitting laser      1 12.2.5
Switch, integrated-optical      12.1.6
Synch (video)      7.4.1
Target (resolution)      5.7.3
TEA laser      see “Laser”
Teflon (diffuser)      4.1.5
Telecommunications Industry Association      1
Telephoto lens Problem      2.5
Telephoto lens, reverse Problem      2.5
Telescope      1 3.7 3.8.2 4.1.7
Telescope objective      2.2.12 3.8.2
Telescope, erecting      3.7.3
Telescope, Galilean      3.7.3
Telescope, resolving power of      3.8.2
Telescope, terrestrial      3.7.3
Television      see “Liquid crystal” “Video “Video
Temporal coherence      see “Coherence”
Tensor      9.3.1
Theoretical resolution limit      see “Resolution limit”
Thermal detector      see “Detector”
Thermal noise      4.3.3
Thermal source      see “Source”
Thermistor      4.3.2
Thick hologram      see “Hologram”
Thick lens      see “Lens”
Thin film      see “Integrated optics” “Interference “Quarter-wave
Thin lens      see “Lens”
Third-order aberration      5.7.5
Tilted object plane Problem      2.6
time constant      see “Response time”
Time domain      11.3.4 see “Optical
Titanium dioxide      6.4.1
Toe (of D vs $log\mathscr{E}$ curve)      3.2.2
Total internal reflection      1 2.1.4 9.1.5 9.2.3
Tourmaline      9.2.4
Transducer      12.1.6
Transfer function      1 7.3.5—8
Transfer function, coherent      7.3.6 7.3.7
Transfer function, diffraction-limited      7.3.5 7.3.6
Transfer function, modulation      7.3.5
Transfer function, modulation, of film      7.3.8
Transfer function, optical      7.3.5
Transform plane      7.2.4 7.2.7 see
Transition      4.2.3
Transition, forbidden      4.2.3
Transmittance      3.2.2 5.4.2 9.1.3
Transmittance, amplitude      5.4.2 7.1 9.1.3
Transmittance, amplitude, of hologram      7.1
Transmitter      12.1
Transverse backscattering      11.5.1
Transverse mode      see “Mode”
Transverse scattering      11.5.1
Transverse wave      1 5.2
Trifocal      3.1
Trigger      7.4.1
Triplet level      8.4.3
Triplicity of light      1
Truncated-wave analysis      7.3.7
Tube length      3.5
Tumbling-E chart      5.7.3
Tungsten lamp      3.8.4 4.2.1 4.2.2 11.1.1
Tunneling ray      10.2.4 10.3.4 see
Turning point      10.3.1
Twisted nematic      see “Liquid crystal”
Twyman — Green Interferometer      6.2.1 see
Ultramicroscope Problem      7.5
Ultrasonic light modulator      see “Acoustooptic light modulator”
Ultrasonic wave      10.2.3 see also “Surface acoustic wave”
Unstable resonator      8.3.2
Useful magnification      see “Magnifying power”
Useful magnifying power      see “Magnifying power”
V number      10.2.5
VCSEL      12.2.5
Veiling glare      7.1.3
Velocity of light      2.1.1
Velocity of light, group      5.2.1
Velocity of light, phase      5.2 10.2.1
Verdet constant      9.4.5
Video camera      3.5 7.4.1 7.4.4
Video microscope      1 3.5 7.4.4
Vignetting      3.3 3.7.1—3
Virtual image      see “Image”
Virtual object      see “Object”

1 2 3 4 5 6

О проекте