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The light fantastic: a modern introduction to classical and quantum optics

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1. Verfasser:	Kenyon, Ian R. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford[u.a.] Oxford Univ. Press 2011
Ausgabe:	2. ed.
Schlagworte:	Optics Quantum optics Quantenoptik Optik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 710 S. Ill., graph. Darst.
ISBN:	9780199584611 9780199584604

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Datensatz im Suchindex

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adam_text	Titel: The light fantastic Autor: Kenyon, Ian R Jahr: 2011 Contents 1 Introduction 1 1.1 Aims and overview...................... 1 1.2 Electromagnetic waves.................... 5 1.3 The velocity of light..................... 7 1.4 A brief outline of electromagnetic wave theory....... 9 1.4.1 More general waveforms............... 13 1.5 The electromagnetic spectrum................ 15 1.5.1 Visible spectra.................... 16 1.6 Absorption and dispersion.................. 18 1.7 Radiation terminology.................... 21 1.8 Black body radiation .................... 25 1.9 Doppler shift......................... 26 1.10 Waveform Conventions.................... 28 2 Reflection and refraction at plane surfaces 31 2.1 Light rays and Huygens principle.............. 31 2.1.1 The laws of reflection ................ 32 2.1.2 Snell s law of refraction............... 33 2.1.3 Fermat s principle .................. 34 2.1.4 Simple imaging.................... 35 2.1.5 Deviation of light by a triangulär prism...... 36 2.2 Total internal reflection................... 37 2.2.1 Constant deviation prism.............. 38 2.2.2 Porro prisms..................... 39 2.2.3 Corner cube reflector................. 40 2.2.4 Pulfrich refractometer................ 40 2.3 Opticalfibre ......................... 42 2.4 Micromirror projector.................... 43 3 Spherical mirrors and lenses 47 3.1 Introduction.......................... 47 3.1.1 Cartesian sign Convention.............. 48 3.2 Spherical mirrors....................... 49 3.2.1 Ray tracing for mirrors ............... 51 3.3 Refraction at a spherical interface.............. 52 3.4 Thin lens equation...................... 53 xiv CONTENTS 3.4.1 Ray tracing for lenses................ 55 3.4.2 Magnifiers....................... 57 3.5 Matrix methods for paraxial optics ............ 57 3.5.1 The equivalent thin lens .............. 59 3.6 Aberrations.......................... 60 3.6.1 Monochromatic aberrations............. 61 3.6.2 Spherical aberration................. 63 3.6.3 Coma......................... 64 3.6.4 Astigmatism ..................... 65 3.6.5 Field curvature.................... 66 3.6.6 Distortion....................... 68 3.6.7 Chromatic aberration................ 69 3.7 Further reading........................ 72 Optical instrumenta 75 4.1 Introduction.......................... 75 4.2 The refracting telescope................... 75 4.2.1 Field of view..................... 77 4.2.2 Etendue........................ 79 4.3 Telescope objectives and eyepieces............. 81 4.4 The microscope ....................... 82 4.5 Cameras............................ 85 4.5.1 Camera lens design.................. 87 4.5.2 SLR camera features................. 88 4.5.3 Telecentric lenses................... 90 4.5.4 Telephoto lenses................... 91 4.5.5 Zoom lenses ..................... 91 4.6 Graded index lenses..................... 93 4.7 Aspheric lenses........................ 94 4.8 Fresnel lenses......................... 94 Interference effects and interferometers 97 5.1 Introduction.......................... 97 5.2 The superposition principle................. 98 5.3 Young s two slit experiment................. 98 5.3.1 Fresnel s analysis................... 99 5.3.2 Interference by amplitude division......... 103 5.4 Michelson s interferometer.................. 105 5.4.1 The constancy of c.................. 106 5.5 Coherence and wavepackets................. 107 5.5.1 The frequency content of wavepackets....... Hl 5.5.2 Optical beats..................... 112 5.5.3 Coherence area ................... 114 5.6 Stokes relations ....................... 115 5.7 Interferometry ........................ 115 5.7.1 The Twyman-Green interferometer......... 116 5.7.2 The Fizeau interferometer.............. 117 5.7.3 The Mach-Zehnder interferometer......... 118 CONTENTS xv 5.7.4 The Sagnac interferometer .............118 5.8 Standing waves........................120 5.9 The Fabry Perot interferometer ..............123 Diffraction 133 6.1 Introduction..........................133 6.2 Huygens-Fresnel analysis ..................134 6.3 Single slit Fraunhofer diffraction ..............134 6.4 Diffraction at a rectangular aperture............137 6.5 Diffraction from multiple identical slits ..........138 6.6 Babinet s principle......................141 6.7 Fraunhofer diffraction at a circular hole..........142 6.8 Diffraction gratings......................143 6.9 Spectrometers and spectroscopes..............145 6.9.1 Gräting structure...................146 6.9.2 Etendue........................147 6.9.3 Czerny-Turner spectrometer ............148 6.9.4 Littrow mounting ..................149 6.9.5 Echelle grating....................149 6.9.6 Automated spectrometers..............150 6.10 Fresnel and Fraunhofer diffraction .............150 6.11 Single slit Fresnel diffraction.................151 6.11.1 Lunar occultation ..................155 6.12 Fresnel diffraction at screens with circular symmetry . . . 155 6.12.1 Zone plates......................157 6.13 Microprocessor lithography.................158 6.14 Near field diffraction.....................160 6.15 Gaussian beams .......................160 6.15.1 Matrix methods ...................164 Fourier optics 169 7.1 Introduction..........................169 7.2 Fourier analysis........................169 7.2.1 Complex field usage.................173 7.2.2 Diffraction and convolution.............174 7.3 Coherence and correlations .................177 7.3.1 Power spectra ....................179 7.3.2 Fourier transform spectrometry ..........180 7.3.3 Line width and bandwidth .............184 7.4 Image formation and spatial transforms..........189 7.5 Spatial filtering........................191 7.5.1 Schlieren photography................192 7.5.2 Apodization......................193 7.6 Acousto-optic Bragg gratings................193 7.6.1 Microwave spectrum analysis............194 7.7 Holography..........................195 7.7.1 Principles of holography...............197 7.7.2 Hologram preparation................198 xvi CONTENTS 7.7.3 Motion and Vibration analysis............199 7.7.4 Thick holograms...................199 7.8 Optical Information processing...............201 7.8.1 The 4/ architecture.................201 7.8.2 Data storage and retrieval..............202 8 Astronomical telescopes 205 8.1 Introduction..........................205 8.2 Telescope design.......................206 8.2.1 Auxiliary equipment.................210 8.3 Schmidt camera........................211 8.4 Atmospheric turbulence...................212 8.5 Adaptive optics........................213 8.5.1 Lucky imaging....................216 8.6 Michelson s stellar interferometer .............218 8.7 Modern interferometers ...................220 8.8 Aperture synthesis......................223 8.9 Aperture arrays........................226 8.10 Image recovery........................228 8.11 Comparisons with radioastronomy.............229 8.12 Gravitational wave detectors ................230 8.12.1 Laser-cavity locking.................232 8.12.2 Noise sources.....................234 8.13 Gravitational imaging....................236 9 Classical electromagnetic theory 239 9.1 Introduction..........................239 9.2 Maxwell s equations.....................240 9.3 The wave equation......................244 9.3.1 Energy storage and energy flow...........246 9.4 Electromagnetic radiation..................249 9.5 Reflection and refraction ..................251 9.6 Fresnel s equations......................255 9.7 Interference Alters ......................259 9.7.1 Analysis of multiple parallel plane layers .....260 9.7.2 Beam Splitters ....................265 9.8 Modes of the electromagnetic field.............267 9.8.1 Mode counting....................268 9.9 Planar waveguides......................270 9.9.1 The prism coupler..................273 10 Polarization 277 10.1 Introduction..........................277 10.2 States of polarization.....................277 10.3 Dichroism and Malus law..................280 10.4 Birefringence.........................281 10.4.1 Analysis of birefringence...............283 10.4.2 The index ellipsoid.................285 CONTENTS xvii 10.4.3 Energy flow and rays.................286 10.4.4 Huygens construction................287 10.5 Wave plates..........................288 10.5.1 Jones vectors and matrices .............289 10.5.2 Prism Separators...................290 10.5.3 Polarizing beam Splitters and DVD readers .... 292 10.6 Optical activity .......................293 10.7 Effects of applied electromagnetic fields ..........294 10.7.1 Pockels effect and modulators ...........295 10.7.2 Kerr effect ......................298 10.7.3 Faraday effect ....................299 10.8 Liquid crystals........................300 10.8.1 The twisted nematic LCD..............301 10.8.2 In-plane switching..................303 10.8.3 Polymer dispersed liquid crystals (PDLC) .... 305 10.8.4 Ferroelectric liquid crystals (FELC) ........306 10.9 Further reading........................307 11 Scattering, absorption and dispersion 309 11.1 Introduction..........................309 11.2 Rayleigh scattering......................310 11.2.1 Coherent scattering .................312 11.3 Mie scattering.........................313 11.4 Absorption..........................315 11.5 Dispersion and absorption .................316 11.5.1 The atomic oscillator model ............317 11.6 Metallic absorption and reflection .............321 11.6.1 Plasmas in metals..................326 11.6.2 Group and signal velocity..............328 11.6.3 Surface plasma waves ................331 11.7 Further reading........................334 12 The quantum nature of light and matter 337 12.1 Introduction..........................337 12.2 The black body spectrum..................338 12.3 The photoelectric effect ...................342 12.4 The Compton effect .....................345 12.5 de Broglie s hypothesis....................347 12.6 The Bohr model of the atom ................348 12.6.1 Beyond hydrogen...................352 12.6.2 Weaknesses of the Bohr model...........353 12.7 Wave- particle duality ....................354 12.8 The uncertainty principle..................356 12.9 Which path Information...................358 12.10 Wavepackets and modes ..................360 12.10.1 Etendue .......................361 12.11 Afterword ..........................362 12.12 Further reading.......................363 xviii CONTENTS 13 Quantum mechanics and the atom 365 13.1 Introduction..........................365 13.2 An outline of quantum mechanics..............366 13.3 Schroedinger s equation...................367 13.3.1 The Square potential well..............369 13.4 Eigenstates..........................371 13.4.1 Orthogonality of eigenstates.............372 13.5 Expectation values......................373 13.5.1 Collapse of the wavefunction............375 13.5.2 Compatible or simultaneous observables......375 13.6 The harmonic oscillator potential .............377 13.7 The hydrogen atom .....................378 13.8 The Stern-Gerlach experiment...............382 13.9 Electron spin.........................383 13.10 Multi-electron atoms ....................385 13.10.1 Resonance fluorescence...............387 13.10.2 Atoms in constant fields ..............387 13.11 Photon momentum and spin................388 13.12 Quantum statistics .....................391 13.13 Line widths and decay rates................392 13.14 Further reading .......................394 14 Lasers 397 14.1 Introduction..........................397 14.2 The Einstein coefAeients ..................398 14.3 Prerequisites for lasing....................400 14.4 The He:Ne laser.......................402 14.4.1 Three and four level lasers..............404 14.4.2 Gain .........................404 14.4.3 Cavity modes ....................407 14.4.4 Hole burning.....................410 14.4.5 Laser speckies.....................411 14.4.6 Optical beats.....................411 14.5 The C02 gas laser......................412 14.6 Organic dye lasers......................413 14.6.1 Saturation spectroscopy...............414 14.6.2 Cavity ring-down spectroscopy...........416 14.6.3 A heterodyne laser interferometer .........419 14.7 Introducing semiconductors.................422 14.7.1 Double heterostructure lasers............426 14.7.2 DFB lasers......................428 14.7.3 Limiting line widths.................429 14.8 Quantum well lasers.....................430 14.8.1 Vertical cavity lasers.................433 14.9 Nd:YAG and Ndrglass lasers.................434 14.9.1 Q switching......................435 14.10 Ti:sapphire lasers......................437 14.11 Optical Kerr effect and mode locking...........439 CONTENTS xix 14.11.1 Mode locking ....................440 14.12 Frequency combs.......................442 14.12.1 Optical frequency measurement..........444 14.13 Extreme energies.......................445 14.14 Second order non-linear effects ..............446 14.14.1 Raman scattering..................450 14.14.2 Brillouin scattering.................452 14.14.3 Stimulated Raman and Brillouin scattering .... 453 14.15 Further reading .......................453 15 Detectors 457 15.1 Introduction..........................457 15.2 Photoconductors.......................458 15.3 Photodiodes..........................461 15.3.1 Dark current.....................464 15.4 Photodiode response.....................465 15.4.1 Speed of response...................467 15.4.2 Noise .........................468 15.4.3 Amplifiers.......................470 15.4.4 Solar cells.......................472 15.5 Avalanche photodiodes....................473 15.6 Schottky photodiodes ....................475 15.7 Imaging arrays........................477 15.7.1 Quantum efficiency and colour...........479 15.7.2 CCD readout.....................480 15.7.3 Noise and dynamic ränge..............482 15.7.4 EM-CCDs ......................482 15.7.5 CMOS arrays.....................484 15.8 Photomultipliers.......................485 15.8.1 Counting and timing.................487 15.9 Microchannel plates and image intensifiers.........489 15.10 Further reading .......................491 16 Optical fibres 493 16.1 Introduction..........................493 16.2 Attenuation in optical fibre.................494 16.3 Guided waves ........................496 16.4 Fibre types and dispersion properties ...........500 16.5 Signalling...........................504 16.6 Sources and detectors ....................506 16.7 Connectors and routing devices...............507 16.7.1 Directional couplers.................509 16.7.2 Circulators......................509 16.7.3 MMI devices.....................510 16.8 Link noise and power budget................511 16.9 Long haul links........................514 16.9.1 Fibre amplifiers ...................515 16.9.2 Dispersion compensation ..............517 xx CONTENTS 16.10 Multiplexing.........................518 16.10.1 Thin film Alters and Bragg gratings........518 16.10.2 Array waveguide gratings..............520 16.10.3 MEMS........................523 16.11 Solitons............................524 16.11.1 Communication using solitons............526 16.12 Fibre optic sensors......................527 16.12.1 Fibre Bragg sensors.................527 16.12.2 The fibre optic gyroscope..............528 16.13 Optical current transformer.................531 16.14 Further reading .......................533 17 Photonic crystals 535 17.1 Introduction..........................535 17.2 Bloch waves .........................537 17.3 Dispersion relations .....................540 17.3.1 Off-axis beams....................544 17.4 Two-dimensional photonic crystals.............546 17.4.1 Two-dimensional band-gaps.............547 17.5 Photonic crystal slabs....................547 17.5.1 Slow light ......................549 17.5.2 Anomalous refraction effects.............551 17.5.3 LED emission.....................552 17.6 Photonic crystal fibres....................553 17.7 Three-dimensional photonic crystals............555 17.8 Further reading........................556 18 Quantum interactions 559 18.1 Introduction..........................559 18.2 Transition rates .......................561 18.2.1 Selection rules ....................566 18.2.2 Electric susceptibility ................568 18.3 Rabi oscillations.......................570 18.4 Dressed states ........................573 18.4.1 Mollow fluorescence.................576 18.4.2 The Autler-Townes effect..............577 18.5 Electromagnetically induced transparency.........578 18.5.1 Slow light.......................582 18.6 Trapping and cooling ions..................584 18.7 Shelving............................588 18.8 Optical clocks.........................590 18.9 Further reading........................592 19 The quantized electromagnetic field 595 19.1 Introduction..........................595 19.2 Second quantization.....................596 19.2.1 Continuous variables ................602 19.3 First order coherence.....................604 CONTENTS xxi 19.4 Second order coherence ................... 606 19.5 Laser light and thermal light ................ 608 19.5.1 Coherent (laser-like) states ............. 608 19.5.2 Thermal light..................... 611 19.6 Observations of photon correlations ............ 614 19.6.1 Stellar correlation interferometer.......... 615 19.7 Entangled states....................... 616 19.7.1 Beam splitters .................... 617 19.7.2 Spontaneous parametric down conversion..... 618 19.8 The HOM interferometer.................. 620 19.9 Franson Chiao interferometry................ 622 19.10 Complementarity ...................... 624 19.10.1 Delayed choice and quantum eraxure ....... 625 19.11 Transition rates....................... 628 19.12 Further reading ....................... 630 20 Quantum dots, optical cavities and cryptography 633 20.1 Introduction..........................633 20.2 Quantum dots ........................635 20.2.1 Rabi oscillations involving quantum dots .....638 20.3 Optical microcavities.....................640 20.4 Strong and weak coupling..................641 20.5 Rabi oscillations in cavities.................642 20.6 Weak coupling........................645 20.6.1 Cavity Purcell factors................647 20.7 Quantum cryptography ...................649 20.7.1 Microcavity diode ..................653 20.8 Further reading........................657 A Appendix: Physical constants and parameters 659 B Appendix: Cardinal points and planes of lens Systems 661 C Appendix: KirchhofF s analysis of wave propagation 665 D Appendix: The non-linear Schroedinger equation 669 E Appendix: State vectors 673 F Appendix: Representation 677 G Appendix: Fermi s golden rule 679 H Appendix: Density matrix 681 I Appendix: The Kramers-Kronig relations 683 J Appendix: Solutions 687 Index 705
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spelling	Kenyon, Ian R. Verfasser (DE-588)113399170 aut The light fantastic a modern introduction to classical and quantum optics I. R. Kenyon 2. ed. Oxford[u.a.] Oxford Univ. Press 2011 XXI, 710 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Optics Quantum optics Quantenoptik (DE-588)4047990-0 gnd rswk-swf Optik (DE-588)4043650-0 gnd rswk-swf Optik (DE-588)4043650-0 s DE-604 Quantenoptik (DE-588)4047990-0 s HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020794022&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kenyon, Ian R. The light fantastic a modern introduction to classical and quantum optics Optics Quantum optics Quantenoptik (DE-588)4047990-0 gnd Optik (DE-588)4043650-0 gnd
subject_GND	(DE-588)4047990-0 (DE-588)4043650-0
title	The light fantastic a modern introduction to classical and quantum optics
title_auth	The light fantastic a modern introduction to classical and quantum optics
title_exact_search	The light fantastic a modern introduction to classical and quantum optics
title_full	The light fantastic a modern introduction to classical and quantum optics I. R. Kenyon
title_fullStr	The light fantastic a modern introduction to classical and quantum optics I. R. Kenyon
title_full_unstemmed	The light fantastic a modern introduction to classical and quantum optics I. R. Kenyon
title_short	The light fantastic
title_sort	the light fantastic a modern introduction to classical and quantum optics
title_sub	a modern introduction to classical and quantum optics
topic	Optics Quantum optics Quantenoptik (DE-588)4047990-0 gnd Optik (DE-588)4043650-0 gnd
topic_facet	Optics Quantum optics Quantenoptik Optik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020794022&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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