Laser physics:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Oxford Univ. Press
2010
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | Oxford master series in physics
9 : Atomic, optical, and laser physics |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Hier auch später erschienene, unveränderte Nachdrucke |
| Beschreibung: | XV, 586 S. Ill., graph. Darst. |
| ISBN: | 9780198506928 9780198506911 |
Internformat
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| 245 | 1 | 0 | |a Laser physics |c Simon Hooker and Colin Webb |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Oxford [u.a.] |b Oxford Univ. Press |c 2010 | |
| 300 | |a XV, 586 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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| 490 | 1 | |a Oxford master series in physics |v 9 : Atomic, optical, and laser physics | |
| 500 | |a Hier auch später erschienene, unveränderte Nachdrucke | ||
| 650 | 4 | |a Lasers | |
| 650 | 4 | |a Optics | |
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Datensatz im Suchindex
| _version_ | 1804143233527185408 |
|---|---|
| adam_text | Contents 1 Introduction 1.1 The laser 1.2 Electromagnetic radiation in a closed cavity 1.2.1 The density of modes 1.3 Planck’s law 1.3.1 The energy density of blackbody radiation Further reading Exercises 1 1 3 7 7 8 9 9 2 The interaction of radiation and matter 2.1 The Einstein treatment 2.1.1 Relations between the Einstein coefficients 2.2 Conditions for optical gain 2.2.1 Conditions for steady-state inversion 2.2.2 Necessary, but not sufficient condition 2.3 The semi-classical treatment^ 2.3.1 Outline 2.3.2 Selection rules for electric dipole transitions 2.4 Atomic population kinetics^ 2.4.1 Rate equations 2.4.2 Semi-classical equations 2.4.3 Validity of the rate-equation approach Further reading Exercises 12 12 14 16 16 18 19 19 20 21 22 22 23 24 25 3 Broadening mechanisms and lineshapes 3.1 Homogeneous broadening mechanisms 3.1.1 Natural broadening 3.1.2 Pressure broadening 3.1.3 Phonon broadening 3.2 Inhomogeneous broadening mechanisms 3.2.1 Doppler broadening 3.2.2 Broadening in amorphous solids 3.3 The interaction of radiation and matter in the presence of spectral broadening 3.3.1 Homogeneously broadened transitions 3.3.2 Inhomogeneously broadened atoms1 3.4 The formation of spectral lines: The Voigt profile^ 27 27 27 32 35 35 36 38 38 38 39 40
viii contents 4 5 6 3.5 Other broadening effects 3.5.1 Self-absorption Further reading Exercises 42 42 43 43 Light amplification by the stimulated emission of radiation 4.1 The optical gain cross-section 4.1.1 Condition for optical gain 4.1.2 Frequency dependence of the gain cross-section 4.1.3 The gain coefficient 4.1.4 Gain narrowing 4.2 Narrowband radiation 4.2.1 Amplification of narrowband radiation 4.2.2 Form of rate equations 4.3 Gain cross-section for inhomogeneous broadening^ 4.4 Orders of magnitude 4.5 Absorption 4.5.1 The absorption cross-section 4.5.2 Self-absorption 4.5.3 Radiation trapping Further reading Exercises 46 46 48 48 49 49 50 50 51 52 53 54 54 55 56 56 57 Gain saturation 5.1 Saturation in a steady-state amplifier 5.1.1 Homogeneous broadening 5.1.2 Inhomogeneous broadening^ 5.2 Saturation in a homogeneously broadened pulsed amplifier^ 5.3 Design of laser amplifiers Exercises 60 60 60 67 The laser oscillator 6.1 Introduction 6.2 Amplified spontaneous emission (ASE) lasers 6.3 Optical cavities 6.3.1 General considerations 6.3.2 Low-loss (or ‘stable’) optical cavities 6.3.3 High-loss (or ‘unstable’) optical cavities 6.4 Beam quality^ 6.4.1 The M2 beam-propagation factor 6.5 The approach to laser oscillation 6.5.1 The ‘cold’ cavity 6.5.2 The laser threshold condition 6.6 Laser oscillation above threshold 6.6.1 Condition for steady-state laser oscillation 6.6.2 Homogeneously broadened systems 83 83 83 85 85 89 97 103 103 106 106 110 111 112 ПЗ 73 77 78
contents 6.6.3 Inhomogeneously broadened systems1 6.7 Output power 6.7.1 Low-gain lasers 6.7.2 High-gain lasers: the Rigrod analysis1 6.7.3 Output power in other cases Further reading Exercises 115 117 117 120 123 123 123 Solid-state lasers 7.1 General considerations 7.1.1 Energy levels of ions doped in solid hosts1 7.1.2 Radiative transitions1 7.1.3 Non-radiative transitions1’ 7.1.4 Line broadening1 7.1.5 Three- and four-level systems 7.1.6 Host materials 7.1.7 Techniques for optical pumping 7.2 Nd3+:YAG and other trivalent rare-earth systems 7.2.1 Energy-level structure 7.2.2 Transition linewidth 7.2.3 Nd:YAG laser 7.2.4 Other crystalline hosts 7.2.5 Nd:glass laser 7.2.6 Erbium lasers 7.2.7 Praseodymium ions 7.3 Ruby and other trivalent iron-group systems 7.3.1 Energy-level structure1 7.3.2 The ruby laser 7.3.3 Alexandrite laser 7.3.4 CnLiSAF and Cr.LiCAF 7.3.5 Ti:sapphire Further reading Exercises 132 132 132 137 138 142 142 146 149 157 157 157 158 163 164 165 169 169 169 174 177 180 180 184 184 Dynamic cavity effects 8.1 Laser spiking and relaxation oscillations 8.1.1 Rate-equation analysis 8.1.2 Analysis of relaxation oscillations 8.1.3 Numerical analysis of laser spiking 8.2 Q֊switching 8.2.1 Techniques for Q-switching 8.2.2 Rate-equation analysis of Q-switching 8.2.3 Comparison with numerical simulations 8.3 Modelocking 8.3.1 General ideas 8.3.2 Simple treatment of modelocking 8.3.3 Active modelocking techniques 8.3.4 Passive modelocking techniques 188 188 190 190 192 193 194 198 203 203 204 206 208 214 ix
x contents 9 8.4 Other forms of pulsed output Further reading Exercises 221 222 222 Semiconductor lasers 9.1 Basic features of a typical semiconductor diode laser 9.2 Review of semiconductor physics 9.2.1 Band structure 9.2.2 Density of states and the Fermi energy (T =0K) 9.2.3 The Fermi-Dirac distribution (T փ 0 К) 9.2.4 Doped semiconductors 9.3 Radiative transitions in semiconductors 9.4 Gain at a p-i-n junction 9.5 Gain in diode lasers 9.6 Carrier and photon confinement: the double heterostructure 9.7 Laser materials 9.8 Quantum-well lasers 1 9.9 Laser threshold 9.10 Diode laser beam properties 9.10.1 Beam shape 9.10.2 Transverse modes of edge-emitting lasers 9.10.3 Longitudinal modes of diode lasers 9.10.4 Single longitudinal mode diode lasers 9.10.5 Diode laser linewidth 9.10.6 Tunable diode laser cavities1 9.11 Diode laser output power 9.12 VCSEL lasers1· 9.13 Strained-layer lasers 9.14 Quantum cascade lasers1 Further reading Exercises 226 226 228 228 231 232 233 235 236 238 241 243 244 247 250 250 250 251 253 254 255 257 259 261 262 264 264 10 Fibre lasers 10.1 Optical fibres 10.1.1 The importance of optical-fibre technology 10.1.2 Optical-fibre properties: Ray optics 10.1.3 Optical-fibre properties: Wave optics 10.1.4 Dispersion in optical fibres 10.1.5 Fabrication of optical fibres 10.1.6 Fibre-optic components 10.2 Wavelength bands for fibre-optic telecommunications 10.3 Erbium-doped fibre amplifiers 10.3.1 Energy levels and pumping schemes 10.3.2 Gain spectra 10.3.3 EDFA design and layout 10.3.4 Fabrication of erbium-doped fibre amplifiers 10.4 Fibre Raman
amplifiers 10.4.1 Introduction 267 267 267 268 271 274 276 277 280 282 282 282 284 285 285 285
contents 10.4.2 Raman scattering 10.4.3 Fibre Raman amplifiers 10.4.4 Long-haul optical transmission systems 10.5 High-power fibre lasers 10.5.1 The revolution in fibre-laser performance 10.5.2 Cladding-pumped fibre-laser design 10.5.3 Materials and mechanisms of cladding-pumped fibre-laser systems 10.5.4 High-power fibre lasers: Linewidth considerations 10.6 High-power pulsed fibre lasers 10.6.1 Large mode area (LMA) fibres 10.6.2 Q-switched fibre lasers 10.6.3 Oscillator-amplifier pulsed fibre lasers 10.7 Applications of high-power fibre lasers Further reading Exercises 285 286 287 289 289 290 11 Atomic gas lasers 11.1 Discharge physics interlude 11.1.1 Low-pressure and high-pressure discharges 11.1.2 Low-pressure glow discharge 11.1.3 Temperatures 11.1.4 The steady-state positive column 11.1.5 Ionization rates 11.1.6 Excitation rates 11.1.7 Second-kind or superelastic collisions 11.1.8 Excited-state populations in low-pressure discharges 11.2 The helium-neon laser 11.2.1 Introduction 11.2.2 Energy levels, transitions and excitation mechanisms 11.2.3 Laser construction and operating parameters 11.2.4 Output-power limitations of the He-Ne laser 11.2.5 Applications of He-Ne lasers 11.3 The argon-ion laser 11.3.1 Introduction ! 1.3.2 Energy levels, transitions and excitation mechanisms 11.3.3 Laser construction and operating parameters 11.3.4 Argon-ion laser: Power limitations 11.3.5 Krypton-ion lasers 11.3.6 Applications of ion lasers Further reading Exercises 298 298 298 299 300 303 306 307 310 311 314 314 12 Infra-red molecular gas lasers 12.1 Efficiency considerations
12.1.1 Energy levels of atoms and molecules 12.1.2 Quantum ratio 332 332 332 333 291 291 293 293 294 294 295 296 296 316 318 319 321 321 321 322 325 327 328 329 329 329 xi
xii contents 12.2 Partial population inversion between vibrational energy levels of molecules 12.3 Physics of the CO2 laser 12.3.1 Levels and lifetimes 12.3.2 The effect of adding N2 12.3.3 Effect of adding He 12.4 CO2 laser parameters 12.5 Low-pressure c.w. CO2 lasers 12.6 High-pressure pulsed CO2 lasers 12.7 Other types of CO2 laser 12.7.1 Gas-dynamic CO2 lasers 12.7.2 Waveguide CO2 lasers 12.8 Applications of CO2 lasers Further reading Exercises 13 Ultraviolet molecular gas lasers 13.1 The UV and VUV spectral regions 13.2 Energy levels of diatomic molecules 13.2.1 Separation of the overall wave function 13.2.2 Vibrational eigenfunctions 13.3 Electronic transitions in diatomic molecules: The Franck-Condon principle !3.3.1 Absorption transitions 13.3.2 The‘Franck-Condon loop’ 13.4 The VUV hydrogen laser 13.5 The UV nitrogen laser 13.6 Excimer molecules 13.7 Rare-gas excimer lasers 13.8 Rare-gas halide excimer lasers 13.8.1 Spectroscopy of the rare-gas halides 13.8.2 Rare-gas halide laser design 13.8.3 Pulse-length limitations of discharge-excited RGH lasers 13.8.4 Cavity design and beam properties of RHG lasers 13.8.5 Performance and applications of RGH excimer laser Further reading Exercises 14 Dye lasers 14.1 Introduction 14.2 Dye molecules 14.3 Energy levels and spectra of dye molecules in solution 14.3.1 Energy-level scheme 14.3.2 Singlet-singlet absorption 14.3.3 Singlet-singlet emission spectra 14.3.4 Triplet-triplet absorption 14.4 Rate-equation models of dye laser kinetics 335 338 338 341 342 343 344 346 349 349 351 351 352 352 355 355 356 356 357 358 358 360 361
364 364 367 370 370 371 373 373 375 377 378 380 380 380 382 382 382 385 387 387
contents 14.5 Pulsed dye lasers 14.5.1 Flashlamp-pumped systems 14.5.2 Dye lasers pumped by pulsed lasers 14.6 Continuous-wave dye lasers 14.6.1 Population kinetics 14.6.2 Continuous waves dye laser design 14.7 Solid-state dye lasers 14.8 Applications of dye lasers Further reading Exercises 388 388 389 391 391 393 395 396 398 398 15 Non-linear frequency conversion 15.1 Introduction 15.2 Linear optics of crystals 15.2.1 Classes of anisotropic crystals 15.2.2 Vectors 15.2.3 Field directions for o- and e-rays in a uniaxial crystal 15.3 Basics of non-linear optics 15.3.1 Maxwell’s equations for non-linear media 15.3.2 Second-harmonic generationin anisotropic crystals 15.3.3 The requirement for phase matching 15.4 Phase-matching techniques 15.4.1 Biréfringent phase matching in uniaxial crystals 15.4.2 Critical and non-critical phase matching 15.4.3 Poynting vector walk-off in biréfringent phase matching 15.4.4 Other factors affecting SHG conversion efficiency 15.4.5 Phase-matched SHG in biaxial crystals 15.4.6 Biréfringent materials for SHG 15.4.7 Quasi-phase matching techniques 15.5 SHG: practical aspects 15.6 Three-wave mixing and third-harmonic generation (THG) 15.6.1 Three-wave mixing processes in general 15.6.2 Third-harmonic generation (THG) 15.7 Optical parametric oscillators (OPOs) 15.7.1 Parametric interactions 15.7.2 Optical parametric oscillators (OPOs) 15.7.3 Practical parametric devices Further reading Exercises 400 400 400 400 402 403 405 405 406 408 409 409 412 414 414 415 416 418 420 421 421 423 424 424 425 426 428 428 16 Precision frequency control of lasers^
16.1 Frequency pulling 16.2 Single longitudinal mode operation 16.2.1 Short cavity 16.2.2 Intra-cavity etalons 16.2.3 Ring resonators 16.2.4 Other techniques 431 431 433 434 435 437 440 xiii
XIV contents 16.3 Output linewidth 16.3.1 The Schawlow-Townes limit 16.3.2 Practical limitations 16.3.3 Intensity noise 16.4 Frequency locking 16.4.1 Locking to atomic or molecular transitions 16.4.2 Locking to an external cavity 16.5 Frequency combs Further reading Exercises 440 441 444 446 448 450 452 453 456 456 17 Ultrafast lasers 17.1 Propagation of ultrafast laser pulses in dispersive media 17.1.1 The time-bandwidth product 17.1.2 General considerations 17.1.3 Propagation through a dispersive system 17.1.4 Propagation of Gaussian pulses 17.1.5 Non-linear effects: self-phase modulation and the B-integral 17.2 Dispersion control 17.2.1 Geometric dispersion control 17.2.2 Chirped mirrors 17.2.3 Pulse shaping 17.3 Sources of ultrafast optical pulses 17.3.1 Modelocked lasers 17.3.2 Oscillators 17.3.3 Chirped-pulse amplification (CPA) 17.4 Measurement of ultrafast pulses 17.4.1 Autocorrelators 17.4.2 Methods for exact reconstruction of the pulse Further reading Exercises 462 462 462 463 466 469 18 Short-wavelength lasers 18.1 Definition of wavelength ranges 18.2 Difficulties in achieving optical gain at short wavelengths 18.2.1 Pump-power scaling 18.3 General properties of short-wavelength lasers 18.3.1 Travelling-wave pumping 18.3.2 Threshold and saturation behaviour in an ASE laser 18.3.3 Spectral width of the output 18.3.4 Coherence properties of ASE lasers 18.4 Laser-generated plasmas^ 18.4.1 Inverse brems Strahlung heating 18.4.2 Generation of highly ionized plasmas from laser-solid interactions 18.4.3 Optical field ionization 18.5 Collisionally excited lasers 502 503
503 503 505 505 506 508 509 510 510 472 474 474 478 480 482 482 483 483 489 489 492 495 495 511 514 517
contents 18.5.1 Ne-like ions1՜ 18.5.2 Ni-like ions1՜ 18.5.3 Methods of pumping 18.5.4 Collisionally excited OFI lasers 18.6 Recombination lasers 18.6.1 H-like carbon 18.6.2 OFI recombination lasers 18.7 Other sources 18.7.1 High-harmonic generation 18.7.2 Free-electron lasers Further reading Exercises 518 520 520 528 530 532 533 535 535 537 541 541 Appendix A: The semi-classical theory of the interaction of radiation and matter A. 1 The amplitude equations A. 1.1 Derivation of the amplitude equations A.l .2 Solution of the amplitude equations A.2 Calculation of the Einstein В coefficient A.2.1 Polarized atoms and radiation A.2.2 Unpolarized atoms and/or radiation A.2.3 Treatment of degeneracy A.3 Relations between the Einstein coefficients A.4 Validity of rate equations 548 548 548 550 551 551 553 554 555 555 Appendix B: The spectral Einstein coefficients 557 Appendix C: Kleinman’s conjecture 560 Bibliography 563 Index 579 XV
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| dewey-full | 621.36/6 |
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| dewey-search | 621.36/6 |
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| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
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| illustrated | Illustrated |
| indexdate | 2024-07-09T22:44:24Z |
| institution | BVB |
| isbn | 9780198506928 9780198506911 |
| language | English |
| lccn | 2010019282 |
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| physical | XV, 586 S. Ill., graph. Darst. |
| publishDate | 2010 |
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| series | Oxford master series in physics |
| series2 | Oxford master series in physics |
| spelling | Hooker, Simon 1965- Verfasser (DE-588)142230545 aut Laser physics Simon Hooker and Colin Webb 1. publ. Oxford [u.a.] Oxford Univ. Press 2010 XV, 586 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxford master series in physics 9 : Atomic, optical, and laser physics Hier auch später erschienene, unveränderte Nachdrucke Lasers Optics Light Laser (DE-588)4034610-9 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Laser (DE-588)4034610-9 s DE-604 Webb, Colin Verfasser aut Oxford master series in physics 9 : Atomic, optical, and laser physics (DE-604)BV017064373 9 Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020542555&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Hooker, Simon 1965- Webb, Colin Laser physics Oxford master series in physics Lasers Optics Light Laser (DE-588)4034610-9 gnd |
| subject_GND | (DE-588)4034610-9 (DE-588)4123623-3 |
| title | Laser physics |
| title_auth | Laser physics |
| title_exact_search | Laser physics |
| title_full | Laser physics Simon Hooker and Colin Webb |
| title_fullStr | Laser physics Simon Hooker and Colin Webb |
| title_full_unstemmed | Laser physics Simon Hooker and Colin Webb |
| title_short | Laser physics |
| title_sort | laser physics |
| topic | Lasers Optics Light Laser (DE-588)4034610-9 gnd |
| topic_facet | Lasers Optics Light Laser Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020542555&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV017064373 |
| work_keys_str_mv | AT hookersimon laserphysics AT webbcolin laserphysics |