Hitz B., Ewing J.J., Hecht J. — Introduction to Laser Technology :: Электронная библиотека попечительского совета мехмата МГУ

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Hitz B., Ewing J.J., Hecht J. — Introduction to Laser Technology

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Название: Introduction to Laser Technology

Авторы: Hitz B., Ewing J.J., Hecht J.

Аннотация:

Written for engineers, scientists, technicians, and novices, this text explains the underlying physics and engineering applicable to all lasers, without sidetracking into the mathematical details of quantum electronics. The book outlines the characteristics and applications of commercial lasers worldwide and provides a survey of modern lasers. It also discusses light and optics, the fundamental elements of lasers, and laser modification. Semiconductor lasers, solid-state lasers, ion lasers, HeNe lasers, HeCd lasers, carbon dioxide lasers, excimer lasers, and ultrafast lasers are all considered.

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Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: Third Edition

Год издания: 2001

Количество страниц: 287

Добавлена в каталог: 29.11.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Laser resonator modes, stability criterion      109—111
Laser resonator modes, transverse modes      103—104
Laser resonator, analysis      89—90
Laser resonator, circulating power      91—92
Laser resonator, gain and loss      92—94
Laser resonator, gain and loss, saturation      92 93 94
Laser resonator, gain and loss, threshold gain      92
Laser resonator, laser mirrors      98—99
Laser resonator, laser threshold      94
Laser resonator, oscillator-amplifiers      97
Laser resonator, relaxation oscillations      95—96
Laser resonator, resonator and cavity      89
Laser resonator, superradiant laser      90
Laser resonator, unstable resonator      89 97—98
Laser threshold      94
Laser typesetter      5
Laser, characteristics and uses      3
Laser, definition of term      1 68 82—84
LASIK procedure      4 see
Lens, chromatic aberration      250
Lens, focusing capability      19
Lens, Kerr effect      262
Lens, thermal lensing      208
Light      see also "Laser light" "Light
Light propagation, birefringence      31—40
Light propagation, birefringence, baseball in gouda cheese      36—40 169
Light propagation, birefringence, double refraction      40
Light propagation, birefringence, Huygens wavelets      35—40 169—170
Light propagation, birefringence, ordinary and extraordinary wavefront      39
Light propagation, Brewster's angle      40—41
Light propagation, Brewster's angle, Brewster plate      41
Light propagation, brightness      41—43
Light propagation, brightness, compared to intensity      42—43
Light propagation, brightness, divergence      42
Light propagation, Huygen's principle      22—24
Light propagation, refractive index      17—21
Light propagation, refractive index, birefringence and      31—40
Light propagation, refractive index, dispersion and      17 21
Light propagation, refractive index, double refraction      40
Light propagation, refractive index, focusing capability of lens      19
Light propagation, refractive index, frequency of light      20
Light propagation, refractive index, prism      19
Light propagation, refractive index, total internal reflection      19 140
Light, amplification      75
Light, color and wavelength      1—2
Light, differences between laser and flashlight      1
Light, electromagnetic waves      7—11
Light, frequency      20
Light, interaction with atoms      72—73
Light, unique characteristics of laser light      1 3
Light, visible light      9
Light, wave-particle duality      11—16
Light, wave-particle duality, photoelectric effect      12—13
Light, wave-particle duality, photons      14
Liquid laser      see "Dye laser"
Magnetic field, in light wave      25
Manufacturing, laser application      3 250
Maser, ammonia      85—86
Master oscillator/power-amplifier (MOPA)      97
Materials processing, laser applications      3
Maxwell's equations      9
Maxwell, James Clerk      9
Medicine, laser applications      4 249 252
Medicine, laser applications, LASIK procedure      4
Microlaser      200 see
Military, laser applications      5 87 157 217 229—230 236 237—238 249
MIRACL system      238
Mirrors      see "Laser mirrors"
Modelocking      see also "Pulsed laser" "Q-switching"
Modelocking, applications      157—158
Modelocking, E-O modelocker      155
Modelocking, frequency domain      156—157
Modelocking, frequency domain, free-running laser      157
Modelocking, frequency domain, phase locking      156
Modelocking, gain modulation      155—156
Modelocking, Kerr-lens mode-locking      262
Modelocking, laser types      158
Modelocking, modulation depth      154
Modelocking, standing wave      154
Modelocking, time domain      153—156
Modes      see "Laser resonator modes"
Monochromaticity      see also "Laser light"
Monochromaticity, discussed      57—58
MOPA      see "Master oscillator/poweramplifier"
Nd:glass laser      see also "Glass laser"
Nd:glass laser, compared to Nd:YAG laser      194
Nd:YAG laser      see also "Solid-state laser"
Nd:YAG laser, applications      252 264
Nd:YAG laser, bandwidth      117 118 254
Nd:YAG laser, characteristics      172 191—192 203 262
Nd:YAG laser, diode pumping      195—200
Nd:YAG laser, lamp pumping      86—87 258
Nd:YAG laser, thermal loading      207
Neodymium laser      see "Nd:YAG"
Nitrogen laser, resonator      90
Nonlinear optics in general      161—164
Nonlinear optics, application      264—267
Nonlinear optics, frequency doubling      172
Nonlinear optics, higher harmonics      173
Nonlinear optics, intracavity harmonic generation      172—173
Nonlinear optics, optical parametric oscillation      173—175 265
Nonlinear optics, phase matching      167—171
Nonlinear optics, phase matching, angle tuning      169 170
Nonlinear optics, phase matching, beam walkoff      170
Nonlinear optics, phase matching, temperature tuning      169
Nonlinear optics, phase matching, Type I phase matching      171
Nonlinear optics, phase matching, Type II phase matching      171
Nonlinear optics, second-harmonic generation      164—167
OPO      see "Optical parametric oscillation"
Optical parametric oscillation (OPO), discussed      173—175 265—267
Organic dye laser      see "Dye laser"
Oscillator-amplifier      97
Phase matching, discussed      167—171
photoelectric effect      12—13 see
photolithography      250—252
Photoluminesence      225
photons      see also "Energy levels"
Photons, absorption and emission      67—68 74
Photons, energy and      67 82—83
Photons, light and      14—16
Plane wave      10—11 see
Pockels cell      142—144 147
Polarization      see also "Birefringence"
Polarization "in phase with each other"      30
Polarization vector      26
Polarization, Brewster's angle and      40—41
Polarization, components      27—31
Polarization, components, vector sum      27 28
Polarization, discussed      24—26
Polarization, discussed, plane-polarization      28
Polarization, discussed, plane-polarization and circular polarization      26 32—33
Polarization, process, extraordinary light      34
Polarization, process, ordinary light      34
Population inversion      see also "Energy distributions"

Population inversion, creation      202
Population inversion, discussed      79—81
Population inversion, discussed, nonequilibrium situation      80—81
Power output, efficiency and      2
Power output, measurement in watts      134
Power output, prf      see "Pulse repetition frequency"
Power, relation to energy      134
prism      19—20
Pulse repetition frequency (PRF)      135
Pulsed laser      see also "Cavity dumping" "Modelocking"
Pulsed laser, output measurement      133—135
Pulsed laser, output measurement, average power      134—135
Pulsed laser, output measurement, duty cycle      135
Pulsed laser, output measurement, peak power      134—135
Pulsed laser, output measurement, period      135
Pulsed laser, output measurement, pulsed repetition frequency      135
Pumping mechanisms, ammonia maser      85
Pumping mechanisms, chemical energy      87
Pumping mechanisms, diode pumping      195—202
Pumping mechanisms, diode pumping, cw diode      199
Pumping mechanisms, diode pumping, quasi-cw diode      199
Pumping mechanisms, direct discharge      86
Pumping mechanisms, discussed      85—88
Pumping mechanisms, electrical pumping      86
Pumping mechanisms, nuclear particles      87
Pumping mechanisms, optical pumping      191—192 216
Pumping mechanisms, radiofrequency energy      86
Pumping mechanisms, relation to gain      93
Pumping mechanisms, transverse      257
Q-switching      see also "Cavity dumping" "Modelocking"
Q-switching in general      113 135—139
Q-switching, acoustic-optic      139
Q-switching, acoustic-optic, discussed      140—142
Q-switching, acoustic-optic, hold-off      142
Q-switching, compared to cavity dumping      148—150
Q-switching, dye Q-switch      139—140
Q-switching, dye Q-switch, discussed      144—145
Q-switching, electro-optic      139
Q-switching, electro-optic, discussed      142—144
Q-switching, measuring output of pulsed laser      133—135
Q-switching, mechanical Q-switch      139
Q-switching, mechanical Q-switch, discussed      140
Q-switching, mechanical Q-switch, frustrated total-internal-reflection Q-switch      140
Q-switching, pulse transmission mode Q-switching      148
Q-switching, types of Q-switches      139—140
quantum mechanics      15 65 67 71—74 see
Quantum well      184
Quarter-wave plate      33
Radial keratotomy      4
Radiofrequency energy      86
Raman — Nath modulator      151n.1
Range finder      5
Ranging, laser applications      157
Refractive index      see "Light propagation refractive
Relaxation oscillations      95—96
Resonator      see "Laser resonator"
Robotics      3
Ruby laser      see also "Cr:ruby laser" "Solid-state
Ruby laser as solid-state laser      2
Ruby laser, light output      1
Ruby laser, pumping      86 192
Sawmill, laser application      6
Second-harmonic generation (SHG), discussed      164—167
Semiconductor laser in general      177
Semiconductor laser, diode arrays      185—186
Semiconductor laser, diode laser      182—186
Semiconductor laser, diode laser, current confinement      184
Semiconductor laser, diode laser, wavelength      186—187
Semiconductor laser, distributed Bragg reflector      185
Semiconductor laser, distributed-feedback laser      184
Semiconductor laser, LED diode laser      182
Semiconductor laser, vertical-cavity, surface-emitting laser      187—189
Semiconductor manufacture, laser application      250
Semiconductor physics in general      178—182
Semiconductor physics in general, doping      178
Semiconductor physics in general, n-doped semiconductor      179
Semiconductor physics in general, p-doped semiconductor      179
shg      see "Second-harmonic generation"
Single-mode laser, bandwidth reduction      127—130
Solid-state laser in general      191—195
Solid-state laser, bandwidth broadening      122
Solid-state laser, diode-pumped in general      195—202
Solid-state laser, diode-pumped, lamp pumping      202—206
Solid-state laser, diode-pumped, thermal issues      206—209
Solid-state laser, examples and characteristics      2
Solid-state laser, normal mode laser      150
Solid-state laser, optically-pumped      191—192
Solid-state laser, tunable      258—261
Spatial hole burning      126
Spectroscopic laser, pumping      194
Spectroscopy, laser applications      158
Spherical wave      11 see
Spherical wave, Huygens' principle applied to      23—24
Spherical wave, Superradiant laser      90
Telecommunications, laser applications      4
Thermal birefringence      208 see
Thermal issues, laser cooling      206—209
Thermal lensing      208
Thermodynamics      76
Three-level laser      see also "Energy distributions"
Three-level laser, energy distributions      84—85
Three-level laser, quasi-three-level laser      205—206
Thulium      194
Ti:sapphire laser as tunable solid-state laser      258—261
Ti:sapphire laser, bandwidth      254
Ti:sapphire laser, characteristics      195 198
Ti:sapphire laser, compared to dye laser      260—261
Ti:sapphire laser, wavelength      264
Tm laser, pumping      206
Total internal reflection      19 140
Tunable laser, in general      253—254
Tunable solid-state laser      see also "Solid-state laser"
Tunable solid-state laser, discussed      258—261
Tunable solid-state laser, oscillator-amplifier configuration      260
Ultrafast laser      253
Ultrafast laser, discussed      261—264
Ultraviolet light, excimer laser output      211 239—241
USA Today      5
VCSEL      see "Vertical-cavity surface-
Vertical-cavity, surface-emitting laser (VCSEL), discussed      187—189
Wall Street Journal      5
Water, as coolant      206—209
Wave      see "Electromagnetic waves"
Wavelength Division Multiplexing      4
Wavelength, fixed-wavelength lasers      1
Welding, laser applications      3
Xenon fluoride (XeF) laser      241
YAG      see "Nd:YAG"
Yb laser, pumping      206
Yb:YAG laser, pumping      206
YLF laser      195
Young's double-slit experiment      12 15 45 60 141
Young's double-slit experiment, discussed      49—52
Yttrium aluminum garnet (YAG) laser      2 see

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