Авторизация
Поиск по указателям
Accetta J.S. (ed.), Shumaker D.L. (ed.), Rogatto W.D. (ed.) — The Infrared & Electro-Optical Systems Handbook. Volume 3: Electro-Optical Components
Обсудите книгу на научном форуме
Нашли опечатку? Выделите ее мышкой и нажмите Ctrl+Enter
Название: The Infrared & Electro-Optical Systems Handbook. Volume 3: Electro-Optical Components
Авторы: Accetta J.S. (ed.), Shumaker D.L. (ed.), Rogatto W.D. (ed.)
Аннотация: The Infrared and Electro-Optical Systems Handbook is a joint product of the Infrared Information Analysis Center (IRIA) and the International Society for Optical Engineering (SPIE). Sponsored by the Defense Technical Information Center (DTIC), this work is an outgrowth of its predecessor, The Infrared Handbook, published in 1978. The circulation of nearly 20,000 copies is adequate testimony to its wide acceptance in the electro-optics and infrared communities. The Infrared Handbook was itself preceded by The Handbook of Military Infrared Technology. Since its original inception, new topics and technologies have emerged for which little or no reference material exists. This work is intended to update and complement the current Infrared Handbook by revision, addition of new materials, and reformatting to increase its utility. Of necessity, some material from the current book was reproduced as is, having been adjudged as being current and adequate. The 45 chapters represent most subject areas of current activity in the military, aerospace, and civilian communities and contain material that has rarely appeared so extensively in the open literature.
Volume 3, edited by William Rogatto of Santa Barbara Research Center, treats traditional system components and devices and includes recent material on focal plane array read-out electronics.
Язык:
Рубрика: Технология /
Статус предметного указателя: Готов указатель с номерами страниц
ed2k: ed2k stats
Год издания: 1993
Количество страниц: 671
Добавлена в каталог: 29.11.2010
Операции: Положить на полку |
Скопировать ссылку для форума | Скопировать ID
Предметный указатель
Scanning, optomechanical, two-axis scanning configuration, cam drive scanner 153—154
Scanning, optomechanical, two-axis scanning configuration, disk-galvo systems 152
Scanning, optomechanical, two-axis scanning configuration, galvo-galvo systems 152—153
Scanning, optomechanical, two-axis scanning configuration, polygon-galvo systems 149—151
Scanning, optomechanical, two-axis scanning configuration, polygon-polygon systems 153—154
Scanning, optomechanical, two-axis scanning configuration, resonant scanner-galvo systems 152
Scattering (of optical materials) 9—10 51
Scattering (of optical materials), bidirectional reflectance distribution function (BRDF) 10
Scattering (of optical materials), bidirectional scattering distribution function (BSDF) 10
Scattering (of optical materials), bidirectional transmittance distribution function (BTDF) 10
Schawlow — Townes formula 579
Schottky barrier 264
Schwarz inequality 550
Search and track 259
Seebeck effect 181
Semiconductors 30—40 177 207 211 215 see semiconductor" "Photoelectromagnetic "Photovoltaic "Quantum "Readout "Transistors"
Sensitometry 524—527
Sensor chip assembly 288—290
Sensor chip assembly, direct hybrid 289
Sensor chip assembly, direct hybrid, siderider 289
Sensor chip assembly, indirect hybrid 289
Sensor chip assembly, monolithic 289 290
Settling time, scanner 165—166 173
Shear 10—11
Shot noise 191 226—227 230
Signal-to-noise ratio, scanner 166—167
Silicon 15 33 35
Silicon carbide mirrors 62 64—65
Silicon integrated circuits see "Readout integrated circuits"
Silicon readouts 256—257
Slew rate, scanner 167 172 173
Snell's law 3 86
Sodium bromide 25
Sodium chloride 21 24—26
Sodium fluoride 16 24
Softening temperature 7
Solubility 9 51
Sources, glow bars 236
Sources, Nernst glowers 236
Sources, photographic 525
Sources, tungsten filament lamps 236
Sources, variable frequency 234—236
Spacecraft see "Radiators low-temperature
Specific gravity 10
Specific heat 7 49 354—357
Specific heat of aluminum alloy-6061 355
Specific heat of copper 355
Specific heat of copper electrolytic tough pitch 356
Specific heat of OFHC-copper 356
Speckle 579
Spiking, laser 616—618
Spinel 14
Spot size 633 634
SPRITE detectors 250 260
Standards, detector reference 237
Standards, National Television Standard Code 494
Staring imaging systems 249 250 254 261 264 265
Steady-state laser operation 607—609
Stefan — Boltzmann law 360
Step drift, scanner 173
Stimulated transition cross section 586—587
strain 10—11
Strehl ratio 112
Stress 10—11
Strong inversion 292
Strontium titanate 15
Switches, MOSFET 290—291 306 324—333
Symbols, nomenclature, and units 82—84 126 178—181 291 520 544
Target designators 127—129 132
Teflon 21 346
Tellurium 17
Thallium bromide 20—21
Thallium bromide-chlorine 20
Thallium chloride 20
Thermal conductance 8 178
thermal conductivity 7—8 46 52—56 346—354 370—372
Thermal conductivity of aluminum alloy 349
Thermal conductivity of copper 349 354
Thermal conductivity of copper electrolytic tough pitch 351 354
Thermal conductivity of copper-beryllium 350 354
Thermal conductivity of glass-10-A 352
Thermal conductivity of glass-10-B 352
Thermal conductivity of multilayer insulation 373
Thermal conductivity of nylon 353
Thermal conductivity of OFHC-copper 350
Thermal conductivity of silk net/double-aluminized Mylar 370—371
Thermal conductivity of stainless steel 351
Thermal conductivity of Teflon 353
Thermal conductivity, crystalline solids 346
Thermal conductivity, Fourier conduction law 347
Thermal conductivity, low thermal impedance link 346—347
Thermal conductivity, metal alloys 346
Thermal conductivity, nonmetallic solids 346
Thermal conductivity, thermal isolator 347—348
Thermal conductivity, wire heat load 348 354
Thermal design principles 346—376 see "Cryogenic "Heat low
Thermal design principles, computer codes 373—375
Thermal design principles, computer codes, NEVADA 375—376
Thermal design principles, computer codes, SINDA 374—375
Thermal design principles, computer codes, SSPTA 376
Thermal design principles, conduction 346—354
Thermal design principles, conduction, heat conduction law 346
Thermal design principles, conduction, heat transfer 346
Thermal design principles, conduction, thermal conductivity 346—354
Thermal design principles, convection 366—370
Thermal design principles, cryostat heat map 373—374
Thermal design principles, heat capacity 354 357 see
Thermal design principles, multilayer insulation 370
Thermal design principles, radiation exchange 360—366
Thermal design principles, thermal expansion 357—360
Thermal detectors see "Detectors thermal" "Thermal
Thermal expansion 7 46—50 357—360
Thermal expansion of aluminum alloy-6061 358 360
Thermal expansion of copper 358
Thermal expansion of OFHC-copper 359
Thermal expansion of stainless steel 359
Thermal expansion, coefficient of 357
Thermal imagers 127 132 145 see thermal" "Forward-looking "Infrared
Thermal insulators 346
Thermal noise 190 251
Thermal properties (of optical materials) 6—8 46—49
Thermal properties (of optical materials), Debye temperature 8 46 50
Thermal properties (of optical materials), heat capacitance 7
Thermal properties (of optical materials), heat capacity 7
Thermal properties (of optical materials), melting temperature 6 46 49
Thermal properties (of optical materials), softening temperature 7
Thermal properties (of optical materials), specific heat 7 49
Thermal properties (of optical materials), thermal conductance 8
Thermal properties (of optical materials), thermal conductivity 7—8 46 52—56
Thermal properties (of optical materials), thermal expansion 7 46—50
Thermal properties (of optical materials), transition temperature 7
Thermionic emission 213
Thermoacoustic oscillation 384—385
Thermocouple detectors 196—199
Thermoelectric electromotive force 196
Thermoelectric power 196
Thermopile detectors 196—199 203
Thermopneumatic detectors 199
Thermorefractive coefficient 6 20 22—32 see
Thermovoltaic effect 196
Time constant, scanner 167
Time-delay integration 250 289 328—329
Titanium dioxide 14
Titanium sapphire fibers 219
Torque constant 167—168
Torque transducer 137
Torque-to-inertia ratio, scanner 168
TPX 22
Tracking 125 132
Tracking error 168 172 173
Tracking, missile 130 134 145
Tracking, SDI beam steering 130—131
Transistors, bipolar junction (BJT)s 293—295
Transistors, junction field effect (JFETs) 293—296 305
Transistors, metal oxide semiconductor field effect (MOSFETs) 290—299 305 307 311—325 328 330—335
Transition temperature 7
Transmission 3—5
Transmission data for optical materials 13—22
Transmission data for optical materials, amorphous selenium glass 13
Transmission data for optical materials, arsenic trisulfide glass 13
Transmission data for optical materials, arsenic-modified selenium glass 13
Transmission data for optical materials, barium fluoride 16
Transmission data for optical materials, barium titanate 15
Transmission data for optical materials, cadmium fluoride 16
Transmission data for optical materials, cadmium selenide 16
Transmission data for optical materials, cadmium sulfide 15—16
Transmission data for optical materials, cadmium telluride 16
Transmission data for optical materials, calcium aluminate glasses 14
Transmission data for optical materials, calcium fluoride 16
Transmission data for optical materials, cesium bromide 21
Transmission data for optical materials, cesium iodide 21
Transmission data for optical materials, fused quartz glasses 13
Transmission data for optical materials, gallium antimonide 15
Transmission data for optical materials, gallium arsenide 15—16
Transmission data for optical materials, gallium phosphide 15
Transmission data for optical materials, germanium 15 17
Transmission data for optical materials, indium antimonide 15
Transmission data for optical materials, indium arsenide 15
Transmission data for optical materials, indium phosphide 15
Transmission data for optical materials, Irtran glasses 17—19
Transmission data for optical materials, KRS-5 21
Transmission data for optical materials, lead fluoride 16
Transmission data for optical materials, lead sulfide 15
Transmission data for optical materials, lead telluride 15
Transmission data for optical materials, lithium fluoride 16
Transmission data for optical materials, magnesium oxide 14—15
Transmission data for optical materials, PCTFE 22
Transmission data for optical materials, PE 22
Transmission data for optical materials, polyethylene 21
Transmission data for optical materials, polystyrene 21
Transmission data for optical materials, potassium bromide 21
Transmission data for optical materials, potassium chloride 21
Transmission data for optical materials, potassium iodide 21
Transmission data for optical materials, PTFE 22
Transmission data for optical materials, quartz glasses 13 21
Transmission data for optical materials, quartz, crystal 14
Transmission data for optical materials, sapphire 14 21
Transmission data for optical materials, silicon 15
Transmission data for optical materials, sodium chloride 21
Transmission data for optical materials, sodium fluoride 16
Transmission data for optical materials, spinel 14
Transmission data for optical materials, strontium titanate 15
Transmission data for optical materials, Teflon 21
Transmission data for optical materials, tellurium 17
Transmission data for optical materials, thallium bromide 20—21
Transmission data for optical materials, thallium bromide-chlorine 20
Transmission data for optical materials, thallium chloride 20
Transmission data for optical materials, titanium dioxide 14
Transmission data for optical materials, TPX 22
Transmission data for optical materials, Yttralox 14
Transmissivity 360
Transmittance, effective 5
Transmittance, internal 5
Transparency 12—22 see
Transverse electromagnetic modes 621—626 629—632
Transverse electromagnetic modes, mode 621—622 625—626 632—633
Transverse electromagnetic modes, Hermite — Gaussian modes 624—626
Transverse electromagnetic modes, Laguerre — Gaussian modes 633
Transverse electromagnetic modes, resonant frequencies 629—632
Transverse electromagnetic modes, transverse mode patterns 623
Trapping-mode detectors 260 262 263
Triple point 377
Two-axis beam-steering scanners 146—147
Two-axis scanning configuration 155
ULE mirrors 62
Vapor-phase epitaxy 489
Velocity linearity, scanner 169
Vibrations, effects on displayed information 445—450
video drivers 333—335
Video drivers, crosstalk from 338—339
Video drivers, source-follower 334—335
Vignetting 106
Vision/visual acuity 437 439—440 443 445—450 501 504—505
Vision/visual acuity, biodynamic interference 445 448—150
Vision/visual acuity, contrast sensitivity 440
Vision/visual acuity, vibration, effects of 445
Vision/visual acuity, vibration, effects of, from fixed-wing aircraft 445
Vision/visual acuity, vibration, effects of, from helicopters 445—150
Warning systems 125
Wiener spectrum 549 550
Windows 181 191
Wobble 127 168 171 172
Young's modulus 10—11
Yttralox 14
Zerodur 62
Zinc selenide 35—39 see
Zinc sulfide 33 35
Реклама