Siegman A.E. — Lasers :: Электронная библиотека попечительского совета мехмата МГУ

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Siegman A.E. — Lasers

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Название: Lasers

Автор: Siegman A.E.

Аннотация:

Некорректный ISBN-10

Язык:

Рубрика: Физика/Электромагнетизм/Оптика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1986

Количество страниц: 1283

Добавлена в каталог: 01.10.2005

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

Предметный указатель

Ruby spiking in      955—956
Ruby wave propagation in      272—273
Sagnac interferometer      531
SAPpHiRe      10—11 (see also “Ruby”)
Saturable absorber Q switch      see “Q switches”
Saturable absorbers      207—208 305 538 1104—1109
Saturable absorbers fast saturable absorption      1105—1107
Saturable absorbers pulse propagation in      240—243
Saturable absorbers pulse shortening in      1104—1109
Saturable absorbers slow saturable absorption      1107—1108 (see also “Passive mode locking” “Saturation”)
Saturated dispersion effects      1192—1194
Saturated-absorption spectroscopy      1184—1191 1198—1199
Saturation and spatial hole burning      316—323 465—466 472
Saturation broadening      294—295
Saturation cross-saturation effects      320—322 992—994
Saturation factor (2*)      255—256 364
Saturation fluence $U_{sat}$       367
Saturation in degenerate system      208—210
Saturation in magnetic-dipole transitions      1251—1255
Saturation in mode-locked lasers      see “Mode locking”
Saturation in multilevel system      216—218 219—220
Saturation in regenerative amplifier      455
Saturation intensity      292—297
Saturation intensity definition of      293
Saturation intensity frequency dependence of      294—295
Saturation intensity numerical values of      295
Saturation of in Bloch equations      1251—1255
Saturation of amplified spontaneous emission      553—554
Saturation of homogeneous single-pass laser amplifier      297—306
Saturation of homogeneous transition      206—208 474—475 1171—1172
Saturation of inhomogeneous transition      1172—1173
Saturation of laser amplifier      207—208
Saturation of pulse amplifiers      362—375
Saturation of two-level system      206—208
Saturation with saturable gain and loss      323—324 (see also “Hole-burning effects” “Mode “Spatial
Scalar diffraction theory      715—717 (see also “Aperture diffraction” “Diffraction “Huygens’
Scanning optical interferometers      438—439 763—765 1070 1096 “Interferometers”)
Scattering matrices      401—408
Scattering matrices for lossless systems      405—406
Scattering matrices Hermitian notation for      404—406
Scattering matrices reference planes for      403—404
Scattering, by point object      704—705
Schawlow — Townes formula      451—454 456
Scraper mirror, for unstable resonator      860—861 866
Scraper mirror, for unstable resonator sech function      395 1122
Second threshold in passively mode-locked lasers      1110
Second threshold in Q-switched lasers      1026—1028 (see also “Passive mode locking” “Q
SEL-FOC nods      see “GRIN elements”
Selection rules      1224
Self-canceling lens pairs      811—812
Self-chirping      390—392 (see also “Self-phase modulation”
Self-focusing      380—382
Self-focusing in mode-locked lasers      1115—1116
Self-focusing small-scale      381—382 710 711
Self-focusing whole-beam      380—381
Self-imaging unstable resonators      900—901 910
Self-induced transparency      157 238 1263
Self-phase-modulation      382—385 390—392
Self-phase-modulation in mode-locked lasers      1115—1116
Sellmeier equation      357
Semiconductor lasers      432—433 434 445—446 463—464 482 483 517—519
Semiconductor lasers amplitude fluctuations in      53—54
Semiconductor lasers dispersive effects in      436—437 439
Semiconductor lasers relaxation oscillations and spiking in      965—966 971 974—975
Semiconductor lasers threshold behavior of      463—464 517—519
Semiconductor lasers with unstable resonators      904 911
Sidebands for amplitude and phase gratings      700—703
Sidebands for amplitude-modulated (AM) signals      1087—1091
Sidebands for frequency-modulated (FM) signals      1087—1091
Single-frequency oscillation      462—463 466 “Mode “Mode
Single-transverse-mode oscillation      577
Slater normal mode expansion      931
Slowly opening Q switch      see “Q switches”
Slowly varying envelope approximation (SVEA)A      229—230 241 944—947 1258—1259
Snell’s law      584
Soft aperture      738 786—789 815 914—922 “Variable-reflectivity
Solar-pumped lasers      70—71 1227
Solid-state lasers      61—62
Solitary wave      see “Solitons”
Soliton laser      396 397
Solitons      392—397
Solitons in optical fibers      392—397
Spatial coherence      see “Coherence”
Spatial frequency      658—659 707—709
Spatial frequency sampling theorem for      693—694
Spatial hole burning      316—323 465—466 472
Spatial Inhomogeniety      see “Spatial hole burning”
Spectral packets      158 173 1172—1173 1177—1178 1195 “Inhomogeneous
Spectroscopy      19 21 23
Spectroscopy by linewidth modulation      285
Spherical waves      630 704 Huygens’
Spider mounting, for unstable resonators      860 866
Spiking frequency      see “Relaxation oscillation frequency”
Spiking in laser oscillators      495 954—971
Spiking in laser oscillators in ruby lasers      955—956 964—965
Spiking in laser oscillators in semiconductor lasers      965—966 971 974—975
Spiking in laser oscillators phase-plane description of      961
Spiking in laser oscillators rate equation analysis of      958—961 970
Spiking in laser oscillators suppression of      966 970
Spiking in laser oscillators versus relaxation oscillations      957
Spillover losses      745 776
Spin angular moment and magnetic moment, electronic      1217—1218 1229—1230
Spin angular moment and magnetic moment, nuclear      1230
Spin packet      see “Spectral packets”
Spin-lattice relaxation time      1242 (see also “Longitudinal relaxation”)
Spin-spin relaxation time      1240 1242 “Transverse
Split-mode unstable resonator      908—912
Spontaneous emission      6—18 22—24 26 29 502—505
Spontaneous emission and cavity rate equations      502—505 (see also “Fluorescence” “Radiative
Spot of Arago      734—736 742 863
Stability diagram, for optical resonators      747—749
Stable optical resonators      47 (see also “Optical resonators”)
Stable two-mirror resonators      744—774
Stable two-mirror resonators circle diagram for      748—749
Stable two-mirror resonators compensation for thermal focusing in      842—845
Stable two-mirror resonators concave-convex      758—759
Stable two-mirror resonators confocal      751—754 763 765 770—774
Stable two-mirror resonators eigensolutions for      744—749
Stable two-mirror resonators exact mode patterns      771
Stable two-mirror resonators Fresnel number of      769—770
Stable two-mirror resonators g parameters      746—747
Stable two-mirror resonators half-symmetric      751—752
Stable two-mirror resonators hemispherical      756—758
Stable two-mirror resonators long-radius      754—755 762
Stable two-mirror resonators misalignment effects      767—769
Stable two-mirror resonators mode losses      769—776
Stable two-mirror resonators near-concentric      755—756
Stable two-mirror resonators resonant frequencies of      761—767 772—773
Stable two-mirror resonators stability diagram      747—749
Stable two-mirror resonators symmetric      750—751
Stable-unstable optical resonators      903—904
Stimulated absorption      18—26 30—31
Stimulated atomic transitions      18—30 (see also “Stimulated transition probability”)
Stimulated emission      1 26—27 32—35
Stimulated transition probability due to blackbody radiation      190 195 197
Stimulated transition probability due to nonradiative surroundings      197 199
Stimulated transition probability for electric-dipole transition      181—182 185—186 213 1251
Stimulated transition probability for magnetic-dipole transition      1251
Stimulated transition probability in degenerate system      185—186
Stimulated transition probability in multilevel systems      213
Stimulated transition probability relation to cross section      293
Stimulated transition probability relation to Rabi frequency      234 1262—1263
Strain broadening      159 171—172
Strip resonator      571 861 879
Sum rules      123
Superfluorescence      549—550 551 556—557
Supergaussian beam profile      738—739
Superradiant emission      548—549 551 556—557
Susceptibility classical electron oscillator      102—106
Susceptibility for circularly polarized transitions      143—150 1245—1249

Susceptibility for magnetic-dipole transition      1243—1249
Susceptibility hermitian and antihermitian parts of      181
Susceptibility modified definition of      104
Susceptibility of atomic transition      111
Susceptibility of degenerate transition      153—157
Susceptibility of inhomogeneous hole      1178—1181
Susceptibility resonance approximation for      105—106
Susceptibility strongly inhomogeneous limit      164—165
Susceptibility tensor properties of      143—150 181 1245
Swept-gain laser action      555
Synchronously pumped mode locking      1058—1059 1123—1125
Tapered reflectivity mirrors      905—906 911—912 913—917 919—920 “Variable-reflectivity
TEA lasers      77 309—310
Telescopic optical resonator      845 869
Temporal coherence      see “Coherence”
Tensor formulation, of atomic susceptibilities      143—153 181 1245—1247
Tensor formulation, of power flow      181
Tensor responses      114
Thermal equilibrium      193
Thermal focusing, compensation for      842—845
Thermal light sources      52—54 78—79
Thin film Q switch      see “Q switches”
Three-level laser system      248—251
Three-level maser scheme      74—75
Threshold inversion      41
Threshold ratio r      475 481 512
Threshold region      447—454 457—461 463—464 510—524
Threshold region phase transition analogy      522
Threshold region summary of threshold characteristics      521 (see also “Laser oscillation”)
Time-bandwidth product for gaussian pulse      334—335
Time-bandwidth product for transform-limited pulse      335
Time-bandwidth product in mode-locked lasers      1071—1072
Time-bandwidth product, definitions      334—335
Transform-limited pulses      335
Transit-time broadening      132
Transition cross section      286—292
Transition cross section and gain coefficient      287
Transition cross section and threshold inversion      459
Transition cross section for gaussian lineshape      288 289
Transition cross section for iodine laser      1225
Transition cross section for lorentzian lineshape      288 289
Transition cross section for magnetic-dipole transitions      1220 1225
Transition cross section maximum value      289
Transition cross section typical values      288 289 1225
Transition matrix element      145—146 242
Transition probability      see “Relaxation transition probability” “Stimulated
Transition strength      290 1225 “Transition
Transpose operator      848—849 (see also “Linear operators” “Orthogonality”)
Transverse modes      43—49 53 563
Transverse modes beat frequencies of      575
Transverse modes calculation of      569—580
Transverse modes competition of      576—577
Transverse modes diffraction losses      567
Transverse modes existence of      568
Transverse modes higher-order      569—580
Transverse modes of general resonators      410—411 559—565
Transverse modes of stable gaussian resonators      410
Transverse modes of unstable resonators      411
Transverse modes orthogonality of      568—569
Transverse modes resonance frequencies of      762 (see also “Modes” “Gaussian
Transverse relaxation time      see “Dephasing time” “Transverse
Transverse relaxation, in Bloch equations      1239—1240
Transverse relaxation, of magnetic-dipole oscillators      1237—1240 1256 “Dephasing”)
Transverse-mode control      48 575—577 “Transverse
Traveling wave, properties of      266—275
Traveling-wave amplification      264—306
Traveling-wave amplification basic derivation of      279—285
Traveling-wave amplification saturation of      see “Saturation”
Traveling-wave amplification single-pass gain and bandwidth      279—285
Truncated gaussian beam      see “Aperture diffraction” “Gaussian
Tunable lasers      67 72
Two-level rate equations      204—211 (see also “Rate equations”)
Two-pi pulses      238 (see also “Coherent transients”)
Unidirectional oscillation      532—538
Uniphase wavefront      43 48 58
Unstable optical resonators      47—48 564—565 759—760 822—828 858—922
Unstable optical resonators adaptive optics in      912
Unstable optical resonators advanced analytic techniques for      891—899
Unstable optical resonators advantages of      864—866
Unstable optical resonators aperture shaping effects in      905—906 911—922
Unstable optical resonators asymptotic analysis of      894 898
Unstable optical resonators axicons in      908—912
Unstable optical resonators back-reflection effects on      906—908 912
Unstable optical resonators canonical form for      867—874
Unstable optical resonators collimated Fresnel number for      870
Unstable optical resonators computer simulations of      883—884 887—890
Unstable optical resonators confocal      759—760 873—874
Unstable optical resonators design formulas for      875
Unstable optical resonators edge waves in      872—873 905—906 911—922
Unstable optical resonators elementary properties of      858—859 864—866
Unstable optical resonators equivalent Presnel number for      872—873 876—878
Unstable optical resonators experimental results for      884—890
Unstable optical resonators Fresnel numbers for      870 872—873 876—878
Unstable optical resonators geometrical solutions for      860—862 870—872
Unstable optical resonators hard-edged      826—827 874—884
Unstable optical resonators magnification M in      860—862 867
Unstable optical resonators mode crossing and mode separation behavior of      876—878 895—897 913—914
Unstable optical resonators mode losses and mode patterns in      874—884
Unstable optical resonators near-field pattern of      862—864
Unstable optical resonators negative-branch      822 825—826 867 874
Unstable optical resonators off-axis      901—904 910—911
Unstable optical resonators output coupling methods for      859—861 879
Unstable optical resonators positive-branch      822—824 867 874
Unstable optical resonators references on      866 874 884 890 898—899 910—912 921—922
Unstable optical resonators retroreflected      906—908 912
Unstable optical resonators ring-type      899—900 910
Unstable optical resonators scraper mirror for      860—861 866
Unstable optical resonators self-imaging      900—901 910
Unstable optical resonators semiconductor diode lasers with      904 911
Unstable optical resonators spider output mirror mounting for      860 866
Unstable optical resonators split-mode      908—912
Unstable optical resonators stable-unstable      903—904 910 911
Unstable optical resonators tapered edge effects on      905—906 911—922
Unstable optical resonators virtual source analysis of      894—895 (see also “Optical resonators” “Variable-reflectivity
Variable output coupling      478
Variable-reflectivity unstable resonators      786 913—922
Variable-reflectivity unstable resonators canonical formulation      914
Variable-reflectivity unstable resonators design criteria      919
Variable-reflectivity unstable resonators eigensolutions for      916
Variable-reflectivity unstable resonators Fresnel number for      915
Variable-reflectivity unstable resonators output beam profile      916—919
Variable-reflectivity unstable resonators output coupling      916—918
Variable-reflectivity unstable resonators practical forms of      919—922
Velocity-changing collisions      1196
Virtual source analysis, for unstable resonators      894—895 898
Voight profile      165—168 173—174 175
VRM (variable-reflectivity-mirror) resonators      see “Variable-reflectivity unstable resonators”
Waist, of gaussian beam      663 669 675 679 683
Wave equation      267 276 339-343 626—630
Wave equation hermitian character of      854 (see also “Paraxial wave equation”)
wave number      9—10
Wave propagation, in ducts      653
Wave propagation, in free space      268—269
Wave propagation, propagation factor      270—272
Wave propagation, with loss      270
Waveguides, optical      see “Lensguides”
Whole-beam self-focusing      see “Self-focusing”
Wigner distribution function      797 1102—1103
Zeeman splitting      135—137 149
Zernike polynomials      711
“Anti-etalon” effects      1072—1073 1117
“Cold cavity”      443 466
“Donut mode”      688—689
“Extra photon”      503 509
“Factor of three“      150—153 (see also “Three-star”)
“Power in the bucket”      882
“Supermodes”, in harmonically mode-locked lasers      1073—1074
“Three-star’’ (3*)      114 152—153 186
“Times diffraction limited” (TDL)      58 696—697
“Top hat” criterion, for gaussian beam      665 667 670

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