Vanderlugt A. — Optical signal processing :: Электронная библиотека попечительского совета мехмата МГУ

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Vanderlugt A. — Optical signal processing

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Название: Optical signal processing

Автор: Vanderlugt A.

Аннотация:

Intended for use as both a senior and graduate level textbook and as a reference for workers in the field, it combines a solid treatment of optical signal processing theory with detailed descriptions of selected processing applications. With a focus on processing two-dimensional analog signals, it treats the important new area of acousto-optic signal processing. Beginning with an examination of optical signal processing fundamentals, chapters cover basic signal parameters, geometrical optics, physical optics, spectrum analysis and spatial filtering. Later chapters, focusing on applications, examine heterodyne systems, heterodyne spectrum analysis, decimated arrays and cross-spectrum analysis, heterodyne transform and signal excision, space integrating correlators, time integrating systems and two-dimensional processing.

Язык:

Рубрика: Физика/Электромагнетизм/Оптика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Количество страниц: 604

Добавлена в каталог: 08.10.2005

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Предметный указатель

Spectral responsivity, photodetectors      155
Spectrum analyzers, heterodyne      397—400 433—435
Spectrum analyzers, heterodyne advantages      397
Spectrum analyzers, heterodyne bandpass filter shape      414 416—418 419 420
Spectrum analyzers, heterodyne comparison with power spectrum analyzers      426—430
Spectrum analyzers, heterodyne crosstalk control      417 418—420
Spectrum analyzers, heterodyne decimated array      see “Spectrum analyzers heterodyne decimated
Spectrum analyzers, heterodyne dynamic range      422—427
Spectrum analyzers, heterodyne hybrid      430
Spectrum analyzers, heterodyne mixed transforms      see “Mixed transforms”
Spectrum analyzers, heterodyne photodetector arrays      434 435
Spectrum analyzers, heterodyne photodetector arrays geometry      414—416 421—422
Spectrum analyzers, heterodyne postdetection electronics      436
Spectrum analyzers, heterodyne reference bias term      421—422
Spectrum analyzers, heterodyne resolution      417 420
Spectrum analyzers, heterodyne short-time spectrum (Gabor transform)      400
Spectrum analyzers, heterodyne signal-to-noise ratio      425
Spectrum analyzers, heterodyne thermal/shot noise      426
Spectrum analyzers, heterodyne time-integrating      335 505—506 510—513
Spectrum analyzers, heterodyne time-integrating key performance features      513—515
Spectrum analyzers, heterodyne time-integrating reference signal requirements      506—510
Spectrum analyzers, heterodyne two-dimensional      427—430
Spectrum analyzers, heterodyne with CCD array      429—430
Spectrum analyzers, heterodyne, decimated array: chirp rate      439—440
Spectrum analyzers, heterodyne, decimated array: dynamic range      440—442 444
Spectrum analyzers, heterodyne, decimated array: fast-scan mode      442 444 445
Spectrum analyzers, heterodyne, decimated array: for cross-spectrum analysis      see “Cross-spectrum analyzers”
Spectrum analyzers, heterodyne, decimated array: reference signals      438—440
Spectrum analyzers, heterodyne, decimated array: reference waveform      442—445
Spectrum analyzers, heterodyne, decimated array: scanning      436 438
Spectrum analyzers, heterodyne, decimated array: shot noise      444 445
Spectrum analyzers, heterodyne, decimated array: signal-to-noise ratio      440—442
Spectrum analyzers, heterodyne, decimated array: slow-scan mode      441—442 444 445
Spectrum analyzers, heterodyne, decimated array: staring mode      441
Spectrum analyzers, heterodyne, decimated array: thermal noise      444 445
Spectrum analyzers, power      335—338
Spectrum analyzers, power aperture weighting functions      339—340 347—348 353
Spectrum analyzers, power arbitrary signals      346—347
Spectrum analyzers, power Bragg diffraction mode      338 344—346
Spectrum analyzers, power design summary      365—366
Spectrum analyzers, power diffraction efficiency per frequency      357—358 359
Spectrum analyzers, power digital postprocessing      365
Spectrum analyzers, power dynamic range      350 352—354 362—363
Spectrum analyzers, power dynamic range spur-free      355 356—359
Spectrum analyzers, power electronic versus acousto-optic      336—337
Spectrum analyzers, power frequency resolution      348—350
Spectrum analyzers, power harmonic distortion      355
Spectrum analyzers, power hybrid      335
Spectrum analyzers, power illumination system      338—340
Spectrum analyzers, power instantaneous power      335
Spectrum analyzers, power intermodulation products      356 357
Spectrum analyzers, power light scattering      359—360
Spectrum analyzers, power nonlinearities      356—358
Spectrum analyzers, power nonlinearities elastic      357 358
Spectrum analyzers, power phased array configuration      566—568
Spectrum analyzers, power photodetector array geometry      360—361
Spectrum analyzers, power radiometry      364—365
Spectrum analyzers, power Raman — Nath diffraction mode      336 340—344 346
Spectrum analyzers, power shot noise      351 361
Spectrum analyzers, power sidelobe control      347—348
Spectrum analyzers, power signal compression      358—359
Spectrum analyzers, power signal-to-noise ratio      350—352 362—363 364—365
Spectrum analyzers, power thermal noise      351 361 363
Spectrum analyzers, power using integrated optical circuits      530—534
Spectrum analyzers, power versus integrated optical circuit analyzers      533
Spectrum analyzers, spatial: bandwidth      179
Spectrum analyzers, spatial: cross-      see “Cross-spectrum analyzers”
Spectrum analyzers, spatial: cutoff frequency      179
Spectrum analyzers, spatial: design      194—195
Spectrum analyzers, spatial: dynamic range      171—172 178—179 182—183
Spectrum analyzers, spatial: Fourier transforms in      145—146
Spectrum analyzers, spatial: frequency resolution      163 167—168
Spectrum analyzers, spatial: general form      145—146
Spectrum analyzers, spatial: integration time      179
Spectrum analyzers, spatial: intermodulation products      172—173
Spectrum analyzers, spatial: light scattering      173
Spectrum analyzers, spatial: light sources      146—147
Spectrum analyzers, spatial: modulators spur-free dynamic range      173
Spectrum analyzers, spatial: noise equivalent power      181
Spectrum analyzers, spatial: oblique illumination      112
Spectrum analyzers, spatial: one-dimensional time signals      183
Spectrum analyzers, spatial: optical power      155
Spectrum analyzers, spatial: photodetector arrays      see “Photodetector arrays”
Spectrum analyzers, spatial: raster-scanning      183—194
Spectrum analyzers, spatial: real-time raster-format      545—549
Spectrum analyzers, spatial: shot-noise limited      180—181
Spectrum analyzers, spatial: sidelobe levels      160—163
Spectrum analyzers, spatial: signal-to-noise ratio      173—179 180 181 182—183
Spectrum analyzers, spatial: spatial light modulators      see “Spatial light”
Spectrum analyzers, spatial: thermal-noise limited      181—182
Spectrum analyzers, spatial: total spatial frequency bandwidth      160
Spectrum analyzers, spatial: two-dimensional      188—193 545—549
Spectrum analyzers, spatial: using triple-product processors      545—549
Spectrum: instantaneous      400
Spectrum: short-time      400
Spherical aberration      59—61
Spillover      158—159
Spot size, scanning      313 317—318 320 324—325 326 327 328
Sprague — Koliopoulos time-integrating correlators      520—526 537—538
Sprague — Koliopoulos time-integrating correlators in ambiguity function generation      551
Spur-free dynamic range, of acousto-optic spectrum analyzers      355 356—359
Spurious signals      173

Spurious signals in acousto-optic spectrum analyzers      355
Stationary value, of time of flight      17—18
Stereo compilation      277—278
Strain waves, in acousto-optic cells      289 290—291
Strontium barium niobium oxide, as interaction material      309
Strontium barium nitrate, in spatial filters      247
Superheterodyne receivers      336
Synchronization      549—550
Synchronization transmitter/receiver      516—517
Synthetic aperture radar      1—2 216—218 369
Synthetic radar processing      560
Tangential plane      63
Tap weights      561 562 563—564 565
Target recognition      273
Telecentric scanning systems      153—154
Telescopes: eyepieces      51
Telescopes: Rayleigh resolution criterion      106
Telescopes: resolution      48—50
Telescopic configuration      37—39
Television      9
Television color, bandwidth      8
Television theater projection      148
Tellurium dioxide: as interaction material      298—299 309
Tellurium dioxide: as interactive material      331
Tellurium dioxide: in integrated optical circuits      533
Temporal carrier frequency, in time-integrating correlators      520
Temporal coherence      137—140
Temporal coherence degree of      139—140
Temporal coherence function      139
Temporal diffraction      403
Temporal frequency separation      497—498
Temporal signals      3—8
Thermal (Johnson) noise      175 180 181—182
Thermal (Johnson) noise in acousto-optic spectrum analyzers      351 361 363
Thermal (Johnson) noise in decimated array spectrum analyzers      444 445
Thermal (Johnson) noisein spectrum analyzers      426 428 429
Thin prisms      22
Thin-film waveguides      530—534
Third-order aberrations      59
Threat warning receivers      533
Throughput rate, in chirp-waveform scanners      321 324 326 327
Time bandwidth product      4
Time bandwidth product in time-integrating spectrum analyzers      514
Time bandwidth product of acousto-optic cells      296—297 298
Time delay, acousto-optic cells      296 301
Time duration      3
Time duration in acousto-optic cells      296
Time of flight      17
Time-delay factor, in reference-function correlators      482
Time-integrating correlation      515—517
Time-integrating correlators      504
Time-integrating correlators compared to space-integrating correlators      529—520
Time-integrating correlators due to Montgomery      517—520
Time-integrating correlators due to Sprague and Koliopoulos      520—526 537—538
Time-integrating correlators in ambiguity function generation      551
Time-integrating spectrum analysis      335 504 505—515
Time-integrating systems      504
Titanium dioxide, as interaction material      309
Total internal reflection      19
Transducers: in optical integrated circuits      530—531 532
Transducers: interaction length      357—358
Transducers: phased array      532
Transducers: piezoelectric      289
Transfer equation      28
Transfer functions      71—72
Transfer functions coherent/incoherent modulation      109—110
Transform, mixed      see “Mixed transforms”
Transit time, acousto-optic cells      296
Transmittance, of optical elements      72—73
Transmitters, synchronization with receivers      516—517
Transposed processing      270—272 273 277
Transversal filtering      560—566
Triple-product correlation/processors      537—540
Triple-product correlation/processors in ambiguity function generation      549—556
Triple-product correlation/processors in real-time spectrum analysis      545—549
Two-dimensional spectrum analyzers      545—549
Two-product correlation      537
Unit magnification planes      34
Upchirp mode      311 317 320
Upchirp signals, in time-integrating spectrum analyzers      506—510
Upshifted signals      294 303—304 305
Variable-grating modulation      150—151
Variable-scale correlators      125—126
Variable-scale Fourier transforms      123—124
Vector matrix multiplication, by optical integrated circuits      530
Velocity, scanning      313—314 318 320 323 328
Virtual images, in holography      86
Visible spectrum, bandwidth      8
Watt, as unit of optical power      155
Wave equation      71
Wave normals      14
Wavefront      14
Waveguides, thin-film      530—534
Weiner filter      214
Wide-sense stationary random processes      204—207
Wigner — Ville distribution      504 556—557
window functions      see “Aperture functions”
Wobble plates      25—26
Word detection      240
Young's interference principle      75
Zernike's phase contrast method      219
Zoom lenses, in optical signal processors      266

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