Verdeyen J.T. — Laser electronics :: Электронная библиотека попечительского совета мехмата МГУ

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Verdeyen J.T. — Laser electronics

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Название: Laser electronics

Автор: Verdeyen J.T.

Аннотация:

This is a practical approach to introductory laser electronics that emphasizes real-world applications and problem-solving skills over theory, providing a clear understanding of both optical and microwave frequencies

Язык:

Рубрика: Физика/Электромагнетизм/Оптика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 3rd edition

Год издания: 1995

Количество страниц: 778

Добавлена в каталог: 08.10.2005

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

Предметный указатель

Nd:Glass energy levels      370
Nd:Glass physical data      371
Nd:YAG analysis      363—369
Nd:YAG data      361—362
Nd:YAG energy levels      359
Negative branch, unstable resonator      539
Negative glow      732
Neon model for      401—403
Neon transitions in      399
Noise background      717
Noise figure      716
Noise in electronic amplifiers      716
Noise Johnson, Nyquist, Planck      715
Noise shot      731
Noise spontaneous emission      188
Nonlinear Schroedinger equation (NLS)      118
Normal mode      see “characteristic mode”
Normalization condition on electron distribution function      741
Normalization condition online shape      183
Norton equivalent circuit      698 718
Nuclear potential in excimer      412
Numerical aperture (NA)      89
Nyquist noise      714
Occupation probability      619
Optic axis in ruby (c axis)      353
Optic axis in uniaxial crystal      18
Optical confinement factor      482 486
Optical diode      264
Optical pumping      351
Optical resonators fields in stable cavities      130—139
Optical resonators integral equation approach      544
Optical resonators losses in coupling      148—153
Optical resonators losses in diffraction      155 549
Optical resonators unstable field analysis      555
Optical resonators unstable geometric optic approach      535
Optical resonators with tapered mirrors      562
Optical resonators, resonance general      146
Optical resonators, resonance of a Hermite — Gaussian mode      154
Optical transparency in ruby in a semiconductor      487
Optically thin spectral lines      235
Optimum coupling      267
Optimum pressure-diameter product      398
Ordinary wave      18
Orthogonality of atomic wavefunctions      618
Orthogonality of Hermite — Gaussian functions      81
Orthogonality of Slater modes      598
Oscillation effect on line shape      see “burning”
Oscillation effect on line shape, homogeneous line      211
Oscillation effect on line shape, inhomogeneous line      223
Oscillation frequency      209
Oscillation threshold for      5 208
Oscillator strength      594
Oscillatory behavior      284
P-branch      688 (see also “VR transitions”)
Paraxial ray      36
Paraxial wave equation      65
Partial inversion      691
Paschen notation (for neon)      399
Passband of a quarter-wave filter      526
Periodic acceleration in FEL's      418
Periodic lens waveguide      40
Periodic reflections in DFB's      517
Perturbation theory, for atomic response      619
Perturbation theory, for guided waves      101
Perturbation, caused by optical Kerr effect      117
Phase constant for guided modes in a slab fiber      505
Phase constant Hermite — Gaussian beam      69
Phase constant of the supermodes of an array      572
Phase interrupting collisions      see “ $T_2$

”
Phase interrupting collisions, effect on coherence      25
Phase interrupting collisions, effect on induced polarization      631
Phase interrupting collisions, line broadening      193
Phase modulation (for modelocking)      310
Phase velocity in fibers      107
Phase velocity of a Gaussian beam      71
Phasor diagram for a modelocked laser      299
Phasor diagram for waves in a cavity      146
Phonon terminated laser      382
Photo response of cathodes      701
photodetectors      698—707
photoelectric effect      697
Photomultipliers      699
Photomultipliers current gain in      700
Photon dynamics approach to oscillation      275—284
Photon dynamics in a passive cavity      152
Photon dynamics in Q-switched laser      288—293
Photon lifetime      151
Photon lifetime cavity linewidth      153
Photon lifetime of Slater modes      603
Photon lifetime relation to Q, F      153
Photon lifetime relation to survival factor S      152
Photovoltaic operation      705
PIN diode      704
Planck's radiation law      175
Planck's radiation law for an optically thick transition      235
Planck's radiation law noise (per mode)      714
Polarization current classical derivation      591
Polarization current from density matrix      639
Polarization current in Maxwell's equation      9 590
Polarization current in terms of dipole moment      628
Polarization of the fields Brewster's angle      22
Polarization of the fields in uniaxial crystal      18
Polarization of the fields of modes in a heterostructure      508
Positive branch, unstable resonators      539
Positive column      732
Power balance in a gas discharge      737
Power broadening      626
Power gain      207
Power output, optimum coupling      267
Poynting vector      12
Pressure broadening      193
Pressure broadening of lines      195
Pulse propagation      see “self-induced transparency”
Pulse propagation in fibers      109—115 (see also “solitons”)
Pulse propagation in saturable amplifier/absorbers      311
Pulse propagation, distortion of      315
pulse width      293 298—323 “mode
Pumping effective      223
Pumping efficiency      261
Pumping methods, general      347
Pythagorean relation      91
Q branch of VR transitions      688
q complex beam parameter (cont.) in a cavity      135
q complex beam parameter (cont.) transformation law (ABCD)      76
q complex beam parameter in terms of R, $\omega$       76
q complex beam parameter in the field expression      66
Q, quality factor for cavity      148—150
Q, quality factor for cavity relation to F, $\Delta{\omega}, \tau_p$       150—153
Q, quality factor for cavity relation to survival factor      152
Q-switching      284
Quadratic gain profile      509 (see also “gain guiding”)
Quadratic index fibers and gases      51—52
Quadratic index ray matrix for      53
Quadratic index wave solution in      96
Quantum detectors      697
Quantum efficiency of a laser      261
Quantum efficiency of detectors      697
Quantum efficiency of photocathodes      701
Quantum hypothesis      173
Quantum size effect (QSE)      469
Quantum size effect (QSE), quantum well lasers      476
Quantum size effect (QSE)band theory of      476—481
Quarter-wave bandpass filters      525
Quasi-Fermi levels      450
Quenching effects in rate equations      192
R# (R number) relation to the V number      96
R# (R number) slab fiber      95
R( $\nu$ ), spontaneous recombination spectra in a semiconductor      460
R-branch of (VR transitions)      688
Rabi flopping frequency      621

Radiation damping      610
Radiation, from a supermode      572 585
Radiative processes, lifetime      179
Radius of a curvature for a Hermite — Gaussian mode      68
Radius of a curvature in planar cavities      548
Radius of a curvature in unstable cavities      534
Radius of a curvature of gain guided modes      513
Radius of a curvature of modes in stable cavities      131
Raman effect      643
Raman effect classical analysis      653
Raman effect density matrix analysis      659
Raman effect gain coefficient      655 663
Raman effect scattering cross-section (exp)      657—658
Raman effect scattering in air      658
Rare earth (RE) laser      414
Rare-gas halide (RGH) laser      414
Rate equations      213
Ray matrix for a gas lens      55
Ray matrix for a GRIN lens or fiber      53
Ray matrix for simple components      35—37
Ray path, repetitive      47
Ray tracing      35
Ray tracing in inhomogeneous medium      52
Ray tracing in optical cavities      39
Rayleigh — Jeans distribution      177
Recombination of (e, ions) in lasers      753
Recombination of electrons and holes      442 463
Recombination of electrons and holes, rate in GaAs      463
Recombination of electrons and holes,spectra in a semiconductor      461
Reflection band of a $\lambda/4$ filter      526
Reflection coefficient of a Fabry — Perot cavity      149
Reflection of a Bragg reflector      524
Reflection of a distributed feedback structure      523
Relativistic factor, $\gamma=[1-(v/c)^{2}]^{-1/2}$       419
Relaxation oscillations in lasers      281
Relaxation terms in density matrix      637
Resonance      144
Resonance basic definition      146
Resonance of Hermite — Gaussian beams      154
Rhodamine 6G, absorption/fluorescence      390
Rigrod analysis      271
Ring laser      264
Rotating wave approximation (RWA) for atomic interactions      620
Rotating wave approximation (RWA) for DFB lasers      521
Rotational transitions      685
Ruby laser      351
Ruby laser absorption in      354
Ruby laser data(, lines)      353
Ruby laser energy level diagram      352
Russel — Saunders coupling      692
S, photon survival factor      5 152
Sampled grating      533
Saturated amplifier, power added      222
Saturation derivation from density matrix      640—641
Saturation derivation from rate equations      218—220
Saturation intensity gain saturation definition      220
Saturation intensity lifetime definition      216
Saturation of inhomogeneous broadening      230
Saturation saturated absorber      317
Saturation saturated absorption in       229
Scaling laws for a discharge      399
Scattering cross-section electrons in argon      739
Scattering cross-section Raman      657
Scattering matrix (Appendix I) beam splitter      769
Scattering matrix (Appendix I) Bragg structure      521
Scattering matrix (Appendix I) definition      765
Scattering matrix (Appendix I) of two mirrors      526
Schroedinger equation derivation of Einstein coefficients      617
Schroedinger equation for a finite barrier      477
Secondary emission amplifier      700
Seeding of a laser      264
Selection rules argon ion laser lines      403
Selection rules helium neon lines      399
Selection rules LS coupling rules      682
Self focussing      125
Self-induced transparency      664
Self-reversed line      236
Semi-classical quantum theory      600
Semiconductors data $AL_x Ga_{1-x}As$ data      468
Semiconductors data cavities      503
Semiconductors data detectors      701—702
Semiconductors data, general data      444
Shot noise      711—714
SI (or MKSA) system of units      8
Signal-to-noise ratio      718—724
Signal-to-noise ratio heterodyne      724
Signal-to-noise ratio video detection      718—720
Singlet states in dyes      389—390
Slater modes      597
Small signal gain coefficient $\gamma_0$       189
Snell's law      20
Solitons      115
Solitons fundamental solution      118
Solitons hyperbolic secant pulse      120
Solitons period      117
Space charge limitation (Child — Langmuir law)      761
Space charge neutrality in a discharge      733
Spatial coherence      79
Specific refractivity of a gas      52
Spectral distribution of power due to ASE      236
Spectral distribution of power in a line      10 (see also “line shape”)
Spectral distribution of power in an active cavity      157—158
Spectral distribution of power of noise      710
Spectral distribution of power width of a mode-locked laser      297
Spectroscopic rotation for atoms (LS notation)      682
Spectroscopic rotation for molecules      691
Spectroscopic rotation in rare earth      358
Speed (of an electron)      741
Spherical wave in unstable resonators      534
Spherical wave relation to Gaussian beam      72
Spontaneous emission Einstein coefficient for      179
Spontaneous emission in a semiconductor      459
Spontaneous emission into a cavity mode      239
Spontaneous power of excimer laser      415
Spontaneous power relation to critical fluorescence power      357
Spot-size at the focal plane of a lens      78
Spot-size definition      67—69
Spreading of a beam      70
Stability criterion for cavities      39
Stability diagram for      42—43
Standing wave lasers      268
Stark effect shift (from density matrix)      639
Stark effect splitting in rare earths      358
Statistical weights (g=2J+1)      181
Statistical weights (g=2J+1)of rotation states      686
Stimulated emission characteristics of      181
Stimulated emission cross-section      213
Stimulated emission Einstein coefficient for      179
Stimulated emission in the rate equation      215
Stimulated emission rate in a semiconductor      456
Stokes lines      652 (see also “Raman effect”)
Superelastic collisions      771
Supermodes of an array      570—571
Superstructure grating      533 (see also “chirped grating”)
Susceptibility, complex      9
Susceptibility, complex classical derivation      592
Susceptibility, complex from density matrix      641—42
Susceptibility, complex relation to gain coefficient      642
Tapered mirrors ABCD matrix for      563
Tapered mirrors Gaussian reflectivity      556 559
Tapered mirrors in cavities      562—570
TE, TM modes in blackbody cavity      175
TE, TM modes in slab fiber      91—95
TE, TM modes s and p polarization      22
TEA (Transverse Electric Atmospheric) discharges      748
Temporal growth of photons      239
Thermal distribution of rotational levels      686
Thermal distribution of states in YAG      362
Thermal noise      714
Thermionic emission      732

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