Suter D. — The physics of laser-atom interactions :: Электронная библиотека попечительского совета мехмата МГУ

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Suter D. — The physics of laser-atom interactions

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Название: The physics of laser-atom interactions

Автор: Suter D.

Аннотация:

This book provides a throrough introduction to the interaction of atoms and atomic ions with optical and magnetic fields. The author places particular emphasis on the wealth of important multilevel effects, where atomic vapors exhibit anisotropic behavior. As well as covering the classic two-level atom approach to light-atom interactions, Suter describes in detail a general multilevel formalism, which he uses to discuss optical pumping, two-dimensional spectroscopy and nonlinear optical dynamics. The final chapter deals with the mechanical effects of light, including the cooling and trapping of atoms. With full theoretical and experimental coverage, and over 250 illustrations, the book will be of great interest to graduate students of laser spectroscopy, quantum electronics and quantum optics, and to researchers in these fields.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2005

Количество страниц: 471

Добавлена в каталог: 30.08.2014

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

Предметный указатель

Light-induced forces      385—388
Limit cycles      375 380—381
Linear birefringence      240—241
Linear polarisation      12
Linearly polarised light      189 191
Lineshape function      214
Local oscillator      69—70
Long-term behavior      380
Longitudinal optical pumping      165—166
Loop gain      381
Lorentz — Lorenz theory of dispersion      16 17 46 63 203—204 206—208
losses      381
Low-power approximation      19
Magnetic dipole interaction      143
Magnetic dipole moment      143 410—411
Magnetic dipole transition      75 90
Magnetic field      130
Magnetic resonance spectroscopy      5—6 270 Magnetic compared
Magnetic resonance spectroscopy, principle      28—29 Magnetic resonance spectroscopy sensitivity
Magnetisation components      212 287—288
Magnetisation vector      292
Magnetooptic effects      215—220 281
Magnetooptic traps      412—414
Material excitation      106 108
Matrix elements      47 156—157
Maxwell demon      72
Maxwell's equations      10—12 27 203 205 220 221
Maxwell, James Clerk      6 203 386
Mechanical effects of light      385—421
Mechanical effects of light, light-induced forces      385—388 Mechanical effects of light multilevel
Microscopic order      231 280 281
Microscopic processes      211
Microscopic theory      12—14
Mirror for atoms      404
Mismatch      97
Mixed phase lines      343
Mixing      115 117
Mixing angle      59 93 96 99
mixing matrix      317
Mixing of density operator elements      330
Mixing pulse      316 317 321 348
Modulated excitation      303—308
Modulated light      303
Modulated pump pulses      306
Modulation phase      352
modulation schemes      177
Momentum conservation      386
Momentum transfer      405
Monochromatic laser field      81—82
Multilevel atoms      409—421
Multilevel ground states      186—202 Multilevel ground states observables
Multilevel systems      17—20 325 367
Multiple absorption processes      337
Multiple echoes      321 322 349
Multiple scattering      106 239
Multipole components      334 342 346 350
Multipole expansion      139 168
Multipole moments      137—140 324 337 338
Multistability      375
Nonequilibrium populations      209
Nonlinear dynamics      354—384 Nonlinear dynamics experimental
Nonlinear dynamics, overview      354—361 Nonlinear dynamics self-focusing
Nonlinear Faraday effect      217
Nonlocal medium response      368 369
Nuclear magnetic resonance (NMR)      29 31 34 90 176
Nuclear quadrupole coupling      143
Nuclear quadrupole moment      143 252
Nuclear spin      136 158—159 252—255 312
Nuclear Zeeman interaction      149—150 311 312
Number operator      9
Number state      9 10
Object rotations      121
Observables      325 Observables in multilevel ground states
Observation      321
Observation time      282
Octupole moment      139
Odd harmonics      183
Off-resonance effects      95—97
One-sided interaction      354 374
One-way processes      15
Optical bistability      383
Optical coherence      107 244
Optical dephasing rate      214
Optical detuning      290
Optical free induction decay      69—71 87 88
Optical molasses      393—395 397 398 403 414
Optical nonlinear media      20 356
Optical polarisation      52 66—68 72 220 242 244
Optical properties      25—28 Optical properties of polarised atomic media
Optical pumping      23—25 34—35 75 102—103 113—116 160—202 330 358 359 361—362 373 377 409—410 415 Optical modulated
Optical pumping rate      164 192—194
Optical pumping, principle and overview      160—163 Optical pumping two-level
Optical Rabi frequency      96 277 390 393
Optical spectroscopy      5 31
Optical susceptibility      220 246
optical tweezers      402
Optical wave      68
Optically anisotropic vapours      203—248
Optically anisotropic vapours, anisotropic media      209—220 Optically anisotropic vapours isotropic
Orbital angular momentum      132 134—135
Orbitals      3—4
Orientation dependence      209
Oscillation amplitudes      51
oscillations      289
Oscillatory exchange      87
Packet of magnetisation      176
Parity      90 142
Pauli, Wolfgang      6
Period-three orbit      383
Periodic system of the elements      2
Perturbation theory      55—56
Phase      83
Phase factors      124 343 351
Phase shifts      56—57
Phase transition      355
Phase-sensitive detection      305—307
Phenomenological theories      12—14
Photon echo      70—73 263
Photon momentum      386
Photon recoil      386 389 396
Plane waves      11 Plane waves eigenpolarisations
Polar vectors      142
Polarisation      12 205
Polarisation instabilities      384
Polarisation modulation      181—186
Polarisation of the fluorescence      190 218 284
Polarisation states      132
Polarisation-selective detection      230—247 283 284 336
Polarised atomic media, optical properties of      211—215
Population difference      79 114
Position operator      141
Power broadening      62
Poynting vector      228
Precession      63 150—151 174 289 292
Preparation period      315
Pressure broadening      109—110
Principal axis system      254
Product states      43
Propagtion      220—230
Pseudo-quadrupole interaction      253
Pseudo-spin      48 50—53 56 63—67
Pulse durations      277 300—301
Pulse separation      321
Pulsed magnetic field      297
Pulses      65—66 Pulses
Pump beam polarisation      376
Pump probe experiments      256—257 282—283 313
Quadratic detector      109 232
Quadratic Zeeman interaction      146—147 312 329
Quadrupole magnetic field      413

Quadrupole moment (alignment)      139
Quadrupole splitting      252—253
Quality factors      14
Quantisation axis      57 212
Quantisation direction      324
Quantum beats      90—91
Quantum electrodynamics (QED)      6 91 207
quantum mechanics      3—6
Quantum optics      35
Quantum theory of light      6—10
Quantum well structures      39
Quasi-stationary state      112
Rabi flopping      63—67
Rabi oscillation      45
Rabi signal      278
Rabi's beam experiment      30
Radiation field      131—134
Radiation trapping      365
Raman beats      92 250 268 Raman coherent
Raman excitation      91—97 106 249—250 276
Raman field      105 108 109 266
Raman heterodyne spectroscopy      258—263
Raman process      77 see
Raman pulses      420
Raman scattering      105—109 240
Raman transitions      419—421
Rare earth ions      248 Rare earth ions electronic
Rate equations      110
Recoil limit      417 419
Rectified dipole force      406—408
Reduced density operator      49
Reduced dynamics      163
Reduced matrix element      157
Refocusing      72—73 263 265 298—300
Refocusing efficiency      301—302
Refocusing pulse      73 264 265
Refractive index      206 208 361 363 365 366 373
Regular behaviour      382
Relative orientation      135
Relaxation      59—60 109 111 166—168
Relaxation rate      165 172
Rephasing      353
Repopulation      193
Repumping      410
Repumping laser      410
Reservoirs      153—154
Resonant enhancement      175—176
Ring structure      369 372
Rotating coordinate system      79 179
Rotating frame      53 55—56 68—69 303 331 341
Rotating frame approximation      56
Rotating wave approximation      41 180
Rotation      299
Rotation angle      66 300
Rotation axis      173
Rotation matrices      124
Rotation properties      121 126
Rotational symmetry      119—131 137 324 339 Rotational Hamiltonian
Rotations, types of      120—121
Rutherford, Ernest      2
Saturation      208
Saturation parameter      61
Scaling factor      181
Scattering force      389—392
Scattering rate      62 390
Schroedinger equation      44—45 52 54 60 84 120 128—131 150
Schroedinger, Erwin      3
Schwinger, Julian      6
Selection rules      151—154 314 327 338 410
Selective population      160
Self-defocusing      372
Self-focusing      27—28 365—371
Self-organisation      375
Self-phase modulation      373—374
Self-pulsing      374 383
Self-steepening      374
Self-trapping      366 367 372
Semiclassical description      15—16 46—63
Semiclassical theory      207—208
Sign of quadrupole interaction      261
Signal phase      296
Single photon recoil limit      417
Single transition, excitation of      83—85
Single transition, irradiation of      79—81 84
Single-transition operators      77—79
Sir Thomson, Joseph      2
Sisyphus cooling      415—417
Sodium ground state      191—196 242—247
Soliton pulses      374
Source      220
Spectral density      167—168
Spectral hole burning      200 201 256—258 261
Spectroscopic resolution      26
Spectroscopy      3 see "Two-dimensional
Spherical basis      133
Spherical harmonics      124—125
Spherical symmetry      120
Spherical tensor operators      126—127
Spin angular momentum      135
Spin echoes      296—302
Spin nutation      285—291
Spin operators      49
Spin-orbit interaction      135—136 144 154—158
Splitting      96
Spontaneous decay rate      111
Spontaneous emission      44 59 62 265 387 395 402 416
Spontaneous Raman scattering      105
Spontaneous scattering force      387 388
Spontaneous symmetry breaking      355
Stability of atoms      3
Standing light waves      404
Standing wave field      406
Stark effect      142
Stationary magnetisation      172 174
Stationary solution      61—62 172 204 214
Stationary state      99 107—108
Stimulated emission      387
Stimulated forces      399—408
Stimulated magnetooptic radiation force      418—419
Stimulated Raman scattering      106
Stokes      105 106 248 250 278—279
Stokes parameters      235
Strange Attractor      382
Strongly coupled system      154
Sublevel coherences      209 217 241 242 244 322
Sublevel dynamics      22—25 280—313 Sublevel experimental
Sublevel dynamics, free induction decay (FID)      285 286 291—296 Sublevel modulated
Sublevel populations      194
Sublevel transition      276
Sublevels (substates)      4—6
Subspaces      84
Superposition      90
Superposition principle      360
Superposition states      5
susceptibility      208
Susceptibility tensor      211 220 244—247
Symmetry adapted basis      329—330
Symmetry axis      331
Symmetry properties      120
Symmetry-adapted representation      130—131
Tensor operators      137
Tensorial order      343 346
Thermodynamics      160
Third harmonic generation      358
Third-order tensor      344
Three-level echoes      87—90 353
Three-level system      22 74—118 Three-level dynamics
Three-wave mixing      108
Tilted coordinate system      63
Time-domain experiments      30 231 269—274 308—313 315

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