Solid state spectroscopy: an introduction ; with ... 34 tables and 110 problems
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
1998
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 450 S. Ill., graph. Darst. |
| ISBN: | 3540639136 |
Internformat
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| 245 | 1 | 0 | |a Solid state spectroscopy |b an introduction ; with ... 34 tables and 110 problems |c Hans Kuzmany |
| 246 | 1 | |a Solid-state spectroscopy | |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 1998 | |
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| adam_text | HANS KUZMANY SOLID-STATE SPECTROSCOPY AN INTRODUCTION WITH 238 FIGURES,
34 TABLES AND 110 PROBLEMS SPRINGER CONTENTS 1. INTRODUCTION 1 2.
ELECTROMAGNETIC RADIATION 5 2.1 ELECTROMAGNETIC WAVES AND MAXWELL S
THEORY 5 2.2 RADIATION FROM ACCELERATED CHARGES 9 2.2.1 THE HERTZIAN
DIPOLE 9 2.2.2 EMISSION FROM ARBITRARILY ACCELERATED CHARGES 12 2.3
FOURIER TRANSFORMS 13 2.3.1 FOURIER THEOREM 14 2.3.2 EXAMPLES OF FOURIER
TRANSFORMS 15 2.4 RADIATION WITH A FINITE-FREQUENCY SPECTRUM 17 2.4.1
DAMPED HARMONIC OSCILLATOR 17 2.4.2 FREQUENCY SPECTRUM FOR
ELECTROMAGNETIC WAVES WITH A FINITE RADIATION TIME 19 2.4.3 FREQUENCY
SPECTRUM AND POWER SPECTRUM 20 PROBLEMS 22 3. LIGHT SOURCES WITH GENERAL
APPLICATION 25 3.1 BLACK-BODY RADIATION AND GAS-DISCHARGE LAMPS 25 3.2
SPECTRAL LAMPS AND SHAPE OF SPECTRAL LINES 29 3.2.1 LOW-PRESSURE
SPECTRAL LAMPS 29 3.2.2 SHAPE OF SPECTRAL LINES 29 3.3 SYNCHROTRON
RADIATION 32 3.3.1 SYNCHROTRON LIGHT SOURCES 32 3.3.2 GENERATION AND
PROPERTIES OF SYNCHROTRON RADIATION .. 34 3.3.3 SPECIAL SYNCHROTRON
FACILITIES 38 3.4 LASERS AS RADIATION SOURCES . . 39 3.4.1 GENERATION
AND PROPERTIES OF LASER RADIATION 40 3.4.2 CONTINUOUS-WAVE LASERS 44
3.4.3 SEMICONDUCTOR LASERS 47 3.4.4 PULSED LASERS 47 3.4.5 TUNABLE
LASERS : 52 3.4.6 FREE-ELECTRON LASERS 55 3.4.7 NEW DEVELOPMENTS 56 X
CONTENTS 3.5 COHERENCE AND CORRELATION 57 3.5.1 PERIODIC AND
NON-PERIODIC ELECTROMAGNETIC FIELDS ... 57 3.5.2 COHERENT AND
NON-COHERENT SUPERPOSITION 58 3.5.3 TEMPORARY COHERENCE AND CORRELATION
59 3.5.4 THE WIENER-KHINTCHIN THEOREM 62 PROBLEMS 63 4. SPECTRAL
ANALYSIS OF LIGHT 65 4.1 OPTICAL ELEMENTS 65 4.1.1 OPTICAL FILTERS 65
4.1.2 POLARIZERS AND PHASE PLATES 67 4.1.3 GLASS FIBERS AND LIGHT PIPES
69 4.2 MONOCHROMATORS AND SPECTROMETERS 71 4.2.1 CHARACTERISTICS OF
MONOCHROMATORS 71 4.2.2 THE PRISM MONOCHROMATOR 72 4.2.3 THE GRATING
MONOCHROMATOR 74 4.3 INTERFEROMETERS 78 4.3.1 MULTIPLE-BEAM INTERFERENCE
FOR A PARALLEL PLATE 79 4.3.2 THE FABRY-PEROT INTERFEROMETER 81 4.3.3
THE MULTIPASS FABRY-PEROT INTERFEROMETER 83 PROBLEMS 84 5. DETECTION OF
ELECTROMAGNETIC RADIATION 85 5.1 SIGNAL AND NOISE 85 5.2 PHOTOGRAPHIC
FILMS 87 5.3 PHOTOMULTIPLIERS 88 5.4 PHOTOELECTRIC DETECTORS 91 5.4.1
FUNDAMENTALS OF PHOTOELECTRIC DETECTORS 91 5.4.2 PHOTOCONDUCTION
DETECTORS 92 5.4.3 PHOTODIODES 94 5.4.4 DETECTOR ARRAYS AND IMAGERS 96
PROBLEMS . 98 6. THE DIELECTRIC FUNCTION 101 6.1 OPTICAL CONSTANTS AND
KRAMERS-KRONIG RELATIONS 102 6.1.1 OPTICAL CONSTANTS 102 6.1.2
REFLECTION AND TRANSMISSION 104 6.1.3 KRAMERS-KRONIG DISPERSION
RELATIONS 105 6.2 PHYSICAL ORIGIN OF CONTRIBUTIONS TO THE DIELECTRIC
FUNCTION .. 107 6.3 MODEL DIELECTRIC FUNCTIONS 108 6.3.1 DIELECTRIC
FUNCTION FOR HARMONIC OSCILLATORS 108 6.3.2 THE DIELECTRIC FUNCTION FOR
FREE CARRIERS ILL 6.3.3 OSCILLATOR STRENGTH AND SUM RULES 115 6.4
EXPERIMENTAL DETERMINATION OF DIELECTRIC FUNCTIONS (ELLIPSOMETRY) 116
PROBLEMS 119 CONTENTS XI 7. SPECTROSCOPY IN THE VISIBLE AND NEAR-VISIBLE
SPECTRAL RANGE 121 7.1 QUANTUM-MECHANICAL DESCRIPTION OF OPTICAL
ABSORPTION 121 7.2 ABSORPTION FROM EXTENDED STATES IN SEMICONDUCTORS 123
7.2.1 THE PHYSICAL BACKGROUND AND THE SHAPE OF THE ABSORPTION IN
SEMICONDUCTORS 123 7.2.2 DIRECT AND ALLOWED TRANSITIONS AT THE
ABSORPTION EDGE 125 7.2.3 FORBIDDEN TRANSITIONS AND PHONON-ASSISTED
TRANSITIONS 127 7.2.4 ABSORPTION FROM HIGHER TRANSITIONS 128 7.3
ABSORPTION FROM LOCALIZED STATES 129 7.3.1 ABSORPTION OF EXTENDED AND
LOCALIZED EXCITONS 130 7.3.2 ABSORPTION BY DEFECTS 131 7.4 THEORETICAL
DESCRIPTION OF ABSORPTION BY LOCALIZED STATES .. . 133 7.5 LUMINESCENCE
138 7.5.1 LUMINESCENCE FROM SEMICONDUCTORS 140 7.5.2 LUMINESCENCE FROM
POINT DEFECTS IN INSULATORS 143 PROBLEMS . . 146 8. SYMMETRY AND
SELECTION RULES 149 8.1 SYMMETRY OF MOLECULES AND CRYSTALS 149 8.1.1
FORMAL DEFINITION AND DESCRIPTION OF SYMMETRY 149 8.1.2 THE MATHEMATICAL
DESCRIPTION OF SYMMETRY OPERATIONS 152 8.1.3 TRANSFORMATION BEHAVIOR OF
PHYSICAL PROPERTIES 153 8.2 REPRESENTATION OF GROUPS 154 8.3
CLASSIFICATION OF VIBRATIONS 158 8.4 INFINITELY EXTENDED ENSEMBLES AND
SPACE GROUPS 162 8.5 QUANTUM-MECHANICAL SELECTION RULES 163 PROBLEMS ;
167 9. LIGHT-SCATTERING SPECTROSCOPY 169 9.1 INSTRUMENTATION AND SETUP
FOR LIGHT-SCATTERING EXPERIMENTS . 169 9.2 RAMAN SPECTROSCOPY 171 9.2.1
FUNDAMENTALS OF RAMAN SCATTERING 171 9.2.2 CLASSICAL DETERMINATION OF
SCATTERING INTENSITY AND RAMAN TENSOR 175 9.2.3 LONGITUDINAL AND
TRANSVERSE OPTICAL MODES 179 9.2.4 POLARITONS 181 9.2.5 A SIMPLE
QUANTUM-MECHANICAL THEORY OF RAMAN SCATTERING 183 9.2.6 TEMPERATURE
DEPENDENCE OF RAMAN SCATTERING 186 9.2.7 RAMAN SCATTERING FROM
DISORDERED STRUCTURES 187 XII CONTENTS 9.2.8 RESONANCE RAMAN SCATTERING
AND ELECTRONIC RAMAN SCATTERING 190 9.3 BRILLOUIN SCATTERING AND
RAYLEIGH SCATTERING 193 9.3.1 FUNDAMENTALS OF BRILLOUIN SCATTERING 194
9.3.2 EXPERIMENTAL RESULTS OF BRILLOUIN SCATTERING 196 9.3.3 RAYLEIGH
SCATTERING 197 PROBLEMS 197 10. INFRARED SPECTROSCOPY 19 9 10.1
RADIATION SOURCES, OPTICAL COMPONENTS, AND DETECTORS 200 10.2 DISPERSIVE
INFRARED SPECTROSCOPY 206 10.3 FOURIER SPECTROSCOPY 207 10.3.1 BASIC
PRINCIPLES OF FOURIER SPECTROSCOPY 208 10.3.2 OPERATING CONDITIONS FOR
FOURIER SPECTROMETERS 211 10.3.3 FOURIER-TRANSFORM RAMAN SPECTROSCOPY
215 10.4 INTENSITIES FOR INFRARED ABSORPTION 216 10.4.1 ABSORPTION FOR
ELECTRONIC TRANSITIONS 216 10.4.2 ABSORPTION FOR VIBRONIC TRANSITIONS
217 10.5 EXAMPLES FROM SOLID-STATE SPECTROSCOPY 218 10.5.1
INVESTIGATIONS ON MOLECULES AND POLYCRYSTALLINE MATERIAL 218 10.5.2
INFRARED ABSORPTION AND REFLECTION IN CRYSTALS 220 10.5.3 ATTENUATED
TOTAL REFLECTION 222 10.5.4 APPLICATIONS IN SEMICONDUCTOR PHYSICS 225
10.5.5 PROPERTIES OF METALS IN THE INFRARED 228 PROBLEMS 230 11.
MAGNETIC RESONANCE SPECTROSCOPY 233 11.1 MAGNETIC MOMENTS OF ATOMS AND
NUCLEI 233 11.1.1 ORIENTATION OF MAGNETIC MOMENTS IN A FIELD AND ZEEMAN
SPLITTING 235 11.1.2 MAGNETIC MOMENTS IN SOLIDS 236 11.2 KINEMATIC
DESCRIPTION OF SPIN RESONANCE 238 11.2.LLMOTION OF MAGNETIC MOMENTS AND
BLOCH EQUATIONS .. 238 11.2.2 THE LARMOR FREQUENCY 239 11.3 INDUCTION
INTO A SENSOR COIL 241 11.4 CONTINUOUS-WAVE EXPERIMENTS WITH RELAXATION
244 11.4.1 TUNING THE RESONANCE 244 11.4.2 SUSCEPTIBILITY AND ABSORPTION
OF POWER . 245 11.4.3 RESONANCE ABSORPTION 247 11.4.4 THE RESONANCE
EXCITATION AS AN ABSORPTION PROCESS . 247 11.5 RELAXATION TIMES AND LINE
WIDTHS FOR MAGNETIC RESONANCE. . 250 11.6 THE EFFECTIVE SPIN HAMILTONIAN
254 11.7 ELECTRON SPIN RESONANCE 254 CONTENTS XIII 11.8 NUCLEAR MAGNETIC
RESONANCE 259 11.8.1 THE CHEMICAL SHIFT 260 11.8.2 PULSED NUCLEAR
MAGNETIC RESONANCE 261 11.8.3 MAGIC-ANGLE SPINNING NMR 262 11.8.4 KNIGHT
SHIFT 263 11.8.5 TWO-DIMENSIONAL NMR AND NMR TOMOGRAPHY 265 11.9 NUCLEAR
QUADRUPOLE RESONANCE 265 PROBLEMS 267 12. ULTRAVIOLET AND X-RAY
SPECTROSCOPY 269 12.1 INSTRUMENTATION FOR ULTRAVIOLET AND X-RAY
SPECTROSCOPY .... 270 12.1.1 X-RAY SOURCES AND X-RAY OPTICS 270 12.1.2
X-RAY AND ELECTRON SPECTROMETERS 273 12.1.3 X-RAY AND ELECTRON DETECTORS
277 12.2 X-RAY FLUORESCENCE 279 12.3 X-RAY ELECTRON SPECTROSCOPY 281
12.3.1 AUGER SPECTROSCOPY 282 12.3.2 PHOTOELECTRON SPECTROSCOPY 283
12.3.3 X-RAY PHOTOEMISSION 284 12.3.4 ULTRAVIOLET PHOTOELECTRON
SPECTROSCOPY 288 12.4 INVERSE PHOTOEMISSION 290 12.5 X-RAY ABSORPTION
FINE STRUCTURE 291 PROBLEMS 293 13. SPECTROSCOPY WITH 7 RAYS 295 13.1
MOFIBAUER SPECTROSCOPY 295 13.1.1 FUNDAMENTALS OF MOFIBAUER SPECTROSCOPY
295 13.1.2 RADIATION SOURCES AND DETECTORS 298 13.1.3 RESULTS OF
MOFIBAUER SPECTROSCOPY 301 13.2 PERTURBED ANGULAR CORRELATION 303 13.2.1
BASIC DESCRIPTION OF THE PERTURBED ANGULAR CORRELATION 303 13.2.2
EXPERIMENTAL RESULTS FROM PERTURBED ANGULAR CORRELATION 306 PROBLEMS 308
14. GENERALIZED DIELECTRIC FUNCTION 311 14.1 THE MOMENTUM DEPENDENCE OF
THE DIELECTRIC FUNCTION 311 14.2 EXCITATIONS OF THE ELECTRONIC SYSTEM
314 14.2.1 PLASMONS AND PLASMON DISPERSION 314 14.2.2 SINGLE PARTICLE
EXCITATION 315 14.2.3 COMBINATION OF THE DIELECTRIC RESPONSE 316
PROBLEMS 317 XIV CONTENTS 15. SPECTROSCOPY WITH ELECTRONS 319 15.1
ELECTRON ENERGY LOSS SPECTROSCOPY 319 15.1.1 ELECTRON ENERGY LOSS 321
15.1.2 SPECTROMETERS AND DETECTORS 323 15.1.3 APPLICATIONS OF ELECTRON
ENERGY LOSS SPECTROSCOPY ... 325 15.2 TUNNELING SPECTROSCOPY 327 15.2.1
THE TUNNELING EFFECT IN SOLIDS 328 15.2.2 THE TUNNELING DIODE 330 15.2.3
TUNNELING SPECTROSCOPY IN SUPERCONDUCTORS 334 15.2:4 SCANNING TUNNELING
SPECTROSCOPY 339 PROBLEMS 340 16. SPECTROSCOPY WITH POSITRONS AND MUONS
341 16.1 POSITRON ANNIHILATION SPECTROSCOPY 341 16.1.1 POSITRONS IN
SOLIDS 341 16.1.2 POSITRON SOURCES AND SPECTROMETERS 344 16.1.3
EXPERIMENTAL RESULTS FROM POSITRON ANNIHILATION SPECTROSCOPY 346 16.2
MUON SPIN ROTATION 350 16.2.1 MUONS AND MUON SPIN ROTATION 350 16.2.2
INFLUENCE OF INTERNAL FIELDS 352 16.2.3 EXPERIMENTAL RESULTS 353
PROBLEMS * 354 17. NEUTRON SCATTERING 355 17.1 NEUTRONS AND NEUTRON
SOURCES 356 17.1.1 NEUTRONS FOR SCATTERING EXPERIMENTS 356 17.1.2
THERMAL NEUTRON SOURCES 357 17.1.3 COLD AND HOT NEUTRON SOURCES 359 17.2
NEUTRON SPECTROMETER AND DETECTORS 359 17.2.1 NEUTRON SPECTROMETER 360
17.2.2 NEUTRON DETECTORS 361 17.3 THE PROCESS OF NEUTRON SCATTERING 362
17.3.1 THE SCATTERING CROSS SECTION 362 17.3.2 COHERENT AND INCOHERENT
SCATTERING IN THE BORN APPROXIMATION 363 17.3.3 INELASTIC NEUTRON
SCATTERING AND SCATTERING GEOMETRY 365 17.4 RESPONSE FUNCTION AND
CORRELATION FUNCTION FOR INELASTIC NEUTRON SCATTERING 367 17.5 RESULTS
FROM NEUTRON SCATTERING 369 PROBLEMS . . 370 CONTENTS XV 18.
SPECTROSCOPY WITH ATOMS AND IONS 371 18.1 INSTRUMENTATION FOR ATOM AND
ION SPECTROSCOPY 372 18.1.1 ION BEAM SOURCES 372 18.1.2 ACCELERATORS AND
BEAM HANDLING 373 18.1.3 ANALYZERS AND DETECTORS 374 18.2 ENERGY LOSS
AND PENETRATION OF HEAVY PARTICLES IN SOLIDS .... 375 18.3
BACKSCATTERING SPECTROMETRY 376 18.3.1 RUTHERFORD BACKSCATTERING
SPECTROSCOPY 378 18.3.2 ELASTIC RECOIL DETECTION SPECTROSCOPY 379 18.4
SECONDARY ION MASS SPECTROSCOPY 380 PROBLEMS 381 APPENDIX 383 A. TO
CHAPTER 1, INTRODUCTION 383 B. TO CHAPTER 2, ELECTROMAGNETIC RADIATION
384 C. TO CHAPTER 3, LIGHT SOURCES WITH GENERAL APPLICATION 391 D. TO
CHAPTER 4, SPECTRAL ANALYSIS OF LIGHT 394 E. TO CHAPTER 6, THE
DIELECTRIC FUNCTION 395 F. TO CHAPTER 7, SPECTROSCOPY IN THE VISIBLE AND
NEAR-VISIBLE SPECTRAL RANGE 398 G. TO CHAPTER 8, SYMMETRY AND SELECTION
RULES 403 H. TO CHAPTER 9, LIGHT-SCATTERING SPECTROSCOPY 414 I. TO
CHAPTER 10, INFRARED SPECTROSCOPY 418 J. TO CHAPTER 11, MAGNETIC
RESONANCE SPECTROSCOPY 419 K. TO CHAPTER 13, SPECTROSCOPY WITH 7 RAYS
421 L. TO CHAPTER 14, GENERALIZED DIELECTRIC FUNCTION 422 M. TO CHAPTER
17, NEUTRON SCATTERING 431 REFERENCES 433 SUBJECT INDEX 445
|
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| indexdate | 2024-07-09T18:15:12Z |
| institution | BVB |
| isbn | 3540639136 |
| language | English |
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| spelling | Kuzmany, Hans 1940- Verfasser (DE-588)115857915 aut Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems Hans Kuzmany Solid-state spectroscopy Berlin [u.a.] Springer 1998 XV, 450 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Festkörperspektroskopie (DE-588)4226322-0 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Festkörperspektroskopie (DE-588)4226322-0 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007931168&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kuzmany, Hans 1940- Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems Festkörperspektroskopie (DE-588)4226322-0 gnd |
| subject_GND | (DE-588)4226322-0 (DE-588)4123623-3 |
| title | Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems |
| title_alt | Solid-state spectroscopy |
| title_auth | Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems |
| title_exact_search | Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems |
| title_full | Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems Hans Kuzmany |
| title_fullStr | Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems Hans Kuzmany |
| title_full_unstemmed | Solid state spectroscopy an introduction ; with ... 34 tables and 110 problems Hans Kuzmany |
| title_short | Solid state spectroscopy |
| title_sort | solid state spectroscopy an introduction with 34 tables and 110 problems |
| title_sub | an introduction ; with ... 34 tables and 110 problems |
| topic | Festkörperspektroskopie (DE-588)4226322-0 gnd |
| topic_facet | Festkörperspektroskopie Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007931168&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kuzmanyhans solidstatespectroscopyanintroductionwith34tablesand110problems AT kuzmanyhans solidstatespectroscopy |