Verfügbarkeit: Fundamentals of nanoscale film analysis

Fundamentals of nanoscale film analysis:

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Bibliographische Detailangaben
Hauptverfasser:	Alford, Terry L. (VerfasserIn), Feldman, Leonard C. (VerfasserIn), Mayer, James W. 1930-2013 (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York Springer 2007
Schlagworte:	Couches minces Materiales nanoestructurados Nanomatériaux Películas delgadas Nanostructured materials Thin films Photonenstrahlung Teilchenstrahlung Materialcharakterisierung Nanometerbereich Festkörperoberfläche
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Angekündigt u.d.T.: Alford, Terry L.: Nanoscale thin film analysis
Beschreibung:	XIV, 336 S. Ill., graph. Darst.
ISBN:	0387292608 9780387292601

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Datensatz im Suchindex

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adam_text	FUNDAMENTALS OF NANOSCALE FILM ANALYSIS TERRY L. ALFORD ARIZONA STATE UNIVERSITY TEMPE, AZ, USA LEONARD C. FELDMAN VANDERBILT UNIVERSITY NASHVILLE, TN, USA JAMES W. MAYER ARIZONA STATE UNIVERSITY TEMPE, AZ, USA SPRINGER CONTENTS PREFACE XIII 1. ANOVERVIEW: CONCEPTS, UNITS, AND THE BOHR ATOM 1 1.1 INTRODUCTION 1 1.2 NOMENCLATURE 2 1.3 ENERGIES, UNITS, ANDPARTICLES 6 1.4 PARTICLE-WAVE DUALITY AND LATTICE SPACING 8 1.5 THE BOHR MODEL 9 PROBLEMS 10 2. ATOMIC COLLISIONS AND BACKSCATTERING SPECTROMETRY 12 2.1 INTRODUCTION 12 2.2 KINEMATICS OF ELASTIC COLLISIONS 13 2.3 RUTHERFORD BACKSCATTERING SPECTROMETRY 16 2.4 SCATTERING CROSS SECTION AND IMPACT PARAMETER 17 2.5 CENTRALFORCE SCATTERING 18 2.6 SCATTERING CROSS SECTION: TWO-BODY 21 2.7 DEVIATIONS FROM RUTHERFORD SCATTERING AT LOW AND HIGH ENERGY 23 2.8 LOW-ENERGY ION SCATTERING 24 2.9 FORWARD RECOIL SPECTROMETRY 28 2.10 CENTER OF MASS TO LABORATORY TRANSFORMATION 28 PROBLEMS 31 3. ENERGY LOSS OF LIGHT IONS AND BACKSCATTERING DEPTH PROFILES 34 3.1 INTRODUCTION 34 3.2 GENERAL PICTURE OF ENERGY LOSS AND UNITS OF ENERGY LOSS 34 3.3 ENERGY LOSS OF MEV LIGHT IONS IN SOLIDS 35 3.4 ENERGY LOSS IN COMPOUNDSBRAGG S RULE 40 3.5 THE ENERGY WIDTH IN BACKSCATTERING 40 3.6 THE SHAPE OF THE BACKSCATTERING SPECTRUM 43 3.7 DEPTH PROFILES WITH RUTHERFORD SCATTERING 45 3.8 DEPTH RESOLUTION AND ENERGY-LOSS STRAGGLING 47 VIII CONTENTS 3.9 HYDROGEN AND DEUTERIUM DEPTH PROFILES 50 3.10 RANGES OF HAND HE IONS 52 3.11 SPUTTERING AND LIMITS TO SENSITIVITY 54 3.12 SUMMARY OF SCATTERING RELATIONS 55 PROBLEMS 55 4. SPUTTER DEPTH PROFILES AND SECONDARY ION MASS SPECTROSCOPY 59 4.1 INTRODUCTION 59 4.2 SPUTTERING BY ION BOMBARDMENTGENERAL CONCEPTS 60 4.3 NUCLEAR ENERGY LOSS 63 4.4 SPUTTERING YIELD 67 4.5 SECONDARY ION MASS SPECTROSCOPY (SIMS) 69 4.6 SECONDARY NEUTRAL MASS SPECTROSCOPY (SNMS) 73 4.7 PREFERENTIAL SPUTTERING AND DEPTH PROFILES 75 4.8 INTERFACE BROADENING AND ION MIXING 77 4.9 THOMAS-FERMI STATISTICAL MODEL OF THE ATOM 80 PROBLEMS 81 5. ION CHANNELING 84 5.1 INTRODUCTION 84 5.2 CHANNELING IN SINGLE CRYSTALS 84 5.3 LATTICE LOCATION OF IMPURITIES IN CRY STALS 88 5.4 CHANNELING FLUX DISTRIBUTIONS 89 5.5 SURFACE INTERACTION VIA A TWO-ATOM MODEL 92 5.6 THE SURFACE PEAK 95 5.7 SUBSTRATE SHADOWING: EPITAXIAL AU ON AG( 111) 97 5.8 EPITAXIAL GROWTH 99 5.9 THIN FILM ANALYSIS 101 PROBLEMS 103 6. ELECTRON-ELECTRON INTERACTIONS AND THE DEPTH SENSITIVITY OF ELECTRON SPECTROSCOPIES 105 6.1 INTRODUCTION 105 6.2 ELECTRON SPECTROSCOPIES: ENERGY ANALYSIS 105 6.3 ESCAPE DEPTH AND DETECTED VOLUME 106 6.4 INELASTIC ELECTRON-ELECTRON COLLISIONS 109 6.5 ELECTRON IMPACT IONIZATION CROSS SECTION 110 6.6 PLASMONS 111 6.7 THE ELECTRON MEAN FREE PATH 113 6.8 INFLUENCE OF THIN FILM MORPHOLOGY ON ELECTRON ATTENUATION 114 6.9 RANGE OF ELECTRONS IN SOLIDS 118 6.10 ELECTRON ENERGY LOSS SPECTROSCOPY (EELS) 120 6.11 BREMSSTRAHLUNG 124 PROBLEMS 126 CONTENTS IX 7. X-RAY DIFFRACTION 129 7.1 INTRODUCTION 129 7.2 BRAGG S LAW IN REAL SPACE 130 7.3 COEFFICIENT OF THERMAL EXPANSION MEASUREMENTS 133 7.4 TEXTURE MEASUREMENTS IN POLYCRYSTALLINE THIN FILMS 135 7.5 STRAIN MEASUREMENTS IN EPITAXIAL LAYERS 137 7.6 CRYSTALLINE STRUCTURE 141 7.7 ALLOWED REFLECTIONS AND RELATIVE INTENSITIES 143 PROBLEMS 149 8. ELECTRON DIFFRACTION 152 8.1 INTRODUCTION 152 8.2 RECIPROCAL SPACE 153 8.3 LAUE EQUATIONS 157 8.4 BRAGG S LAW 158 8.5 EWALD SPHERE SYNTHESIS 159 8.6 THE ELECTRON MICROSCOPE 160 8.7 INDEXING DIFFRACTION PATTERNS 166 PROBLEMS 172 9. PHOTON ABSORPTION IN SOLIDS AND EXAFS 174 9.1 INTRODUCTION 174 9.2 THE SCHROEDINGER EQUATION 174 9.3 WAVE FUNCTIONS 176 9.4 QUANTUM NUMBERS, ELECTRON CONFIGURATION, AND NOTATION 179 9.5 TRANSITION PROBABILITY 180 9.6 PHOTOELECTRIC EFFECTSQUARE-WELL APPROXIMATION 181 9.7 PHOTOELECTRIC TRANSITION PROBABILITY FOR A HYDROGENIC ATOM 184 9.8 X-RAY ABSORPTION 185 9.9 EXTENDED X-RAY ABSORPTION FINE STRUCTURE (EXAFS) 189 9.10 TIME-DEPENDENT PERTURBATION THEORY 192 PROBLEMS 197 10. X-RAY PHOTOELECTRON SPECTROSCOPY 199 10.1 INTRODUCTION 199 10.2 EXPERIMENTAL CONSIDERATIONS 199 10.3 KINETIC ENERGY OF PHOTOELECTRONS 203 10.4 PHOTOELECTRON ENERGY SPECTRUM 204 10.5 BINDING ENERGY AND FINAL-STATE EFFECTS 206 10.6 BINDING ENERGY SHIFTSCHEMICAL SHIFTS 208 10.7 QUANTITATIVE ANALYSIS 210 PROBLEMS 211 X CONTENTS 11. RADIATIVE TRANSITIONS AND THE ELECTRON MICROPROBE 214 11.1 INTRODUCTION 214 11.2 NOMENCLATURE IN X-RAY SPECTROSCOPY 215 11.3 DIPOLE SELECTION RULES 215 11.4 ELECTRON MICROPROBE 216 11.5 TRANSITION RATE FOR SPONTANEOUS EMISSION 220 11.6 TRANSITION RATE FOR K A EMISSION IN NI 220 11.7 ELECTRON MICROPROBE: QUANTITATIVE ANALYSIS 222 11.8 PARTICLE-INDUCED X-RAY EMISSION (PIXE) 226 11.9 EVALUATION OF THE TRANSITION PROBABILITY FOR RADIATIVE TRANSITIONS... 227 11.10 CALCULATION OF THE KSS/K A RATIO 230 PROBLEMS 231 12. NONRADIATIVE TRANSITIONS AND AUGER ELECTRON SPECTROSCOPY 234 12.1 INTRODUCTION 234 12.2 AUGER TRANSITIONS 234 12.3 YIELD OF AUGER ELECTRONS AND FLUORESCENCE YIELD 241 12.4 ATOMIC LEVEL WIDTH AND LIFETIMES 243 12.5 AUGER ELECTRON SPECTROSCOPY 244 12.6 QUANTITATIVE ANALYSIS 248 12.7 AUGER DEPTH PROFILES 249 PROBLEMS 252 13. NUCLEAR TECHNIQUES: ACTIVATION ANALYSIS AND PROMPT RADIATION ANALYSIS.. 255 13.1 INTRODUCTION 255 13.2 Q VALUES AND KINETIC ENERGIES 259 13.3 RADIOACTIVE DECAY 262 13.4 RADIOACTIVE DECAY LAW 265 13.5 RADIONUCLIDE PRODUCTION 266 13.6 ACTIVATION ANALYSIS 266 13.7 PROMPT RADIATION ANALYSIS 267 PROBLEMS 274 14. SCANNING PROBE MICROSCOPY 277 14.1 INTRODUCTION 277 14.2 SCANNING TUNNELING MICROSCOPY 279 14.3 ATOMIC FORCE MICROSCOPY 284 APPENDIX 1. KM FOR 4 HE + AS PROJECTILE AND INTEGER TARGET MASS 291 APPENDIX 2. RUTHERFORD SCATTERING CROSS SECTION OF THE ELEMENTS FORLMEV 4 HE+ 294 APPENDIX 3. 4 HE + STOPPING CROSS SECTIONS 296 APPENDIX 4. ELECTRON CONFIGURATIONS AND IONIZATION POTENTIALS OF ATOMS 299 APPENDIX 5. ATOMIC SCATTERING FACTORS 302 APPENDIX 6. ELECTRON BINDING ENERGIES 305 CONTENTS XI APPENDIX 7. X-RAY WAVELENGTHS (NM) 309 APPENDIX 8. MASS ABSORPTION COEFFICIENT AND DENSITIES 312 APPENDIX 9. KLL AUGER ENERGIES (EV) 316 APPENDIX 10. TABLE OF THE ELEMENTS 319 APPENDIX 11. TABLE OF FLUORESENCE YIELDS FOR K, L, AND M SHELLS 325 APPENDIX 12. PHYSICAL CONSTANTS, CONVERSIONS, AND USEFUL COMBINATIONS 327 APPENDIX 13. ACRONYMS 328 INDEX 330 /
adam_txt	FUNDAMENTALS OF NANOSCALE FILM ANALYSIS TERRY L. ALFORD ARIZONA STATE UNIVERSITY TEMPE, AZ, USA LEONARD C. FELDMAN VANDERBILT UNIVERSITY NASHVILLE, TN, USA JAMES W. MAYER ARIZONA STATE UNIVERSITY TEMPE, AZ, USA SPRINGER CONTENTS PREFACE XIII 1. ANOVERVIEW: CONCEPTS, UNITS, AND THE BOHR ATOM 1 1.1 INTRODUCTION 1 1.2 NOMENCLATURE 2 1.3 ENERGIES, UNITS, ANDPARTICLES 6 1.4 PARTICLE-WAVE DUALITY AND LATTICE SPACING 8 1.5 THE BOHR MODEL 9 PROBLEMS 10 2. ATOMIC COLLISIONS AND BACKSCATTERING SPECTROMETRY 12 2.1 INTRODUCTION 12 2.2 KINEMATICS OF ELASTIC COLLISIONS 13 2.3 RUTHERFORD BACKSCATTERING SPECTROMETRY 16 2.4 SCATTERING CROSS SECTION AND IMPACT PARAMETER 17 2.5 CENTRALFORCE SCATTERING 18 2.6 SCATTERING CROSS SECTION: TWO-BODY 21 2.7 DEVIATIONS FROM RUTHERFORD SCATTERING AT LOW AND HIGH ENERGY 23 2.8 LOW-ENERGY ION SCATTERING 24 2.9 FORWARD RECOIL SPECTROMETRY 28 2.10 CENTER OF MASS TO LABORATORY TRANSFORMATION 28 PROBLEMS 31 3. ENERGY LOSS OF LIGHT IONS AND BACKSCATTERING DEPTH PROFILES 34 3.1 INTRODUCTION 34 3.2 GENERAL PICTURE OF ENERGY LOSS AND UNITS OF ENERGY LOSS 34 3.3 ENERGY LOSS OF MEV LIGHT IONS IN SOLIDS 35 3.4 ENERGY LOSS IN COMPOUNDSBRAGG'S RULE 40 3.5 THE ENERGY WIDTH IN BACKSCATTERING 40 3.6 THE SHAPE OF THE BACKSCATTERING SPECTRUM 43 3.7 DEPTH PROFILES WITH RUTHERFORD SCATTERING 45 3.8 DEPTH RESOLUTION AND ENERGY-LOSS STRAGGLING 47 VIII CONTENTS 3.9 HYDROGEN AND DEUTERIUM DEPTH PROFILES 50 3.10 RANGES OF HAND HE IONS 52 3.11 SPUTTERING AND LIMITS TO SENSITIVITY 54 3.12 SUMMARY OF SCATTERING RELATIONS 55 PROBLEMS 55 4. SPUTTER DEPTH PROFILES AND SECONDARY ION MASS SPECTROSCOPY 59 4.1 INTRODUCTION 59 4.2 SPUTTERING BY ION BOMBARDMENTGENERAL CONCEPTS 60 4.3 NUCLEAR ENERGY LOSS 63 4.4 SPUTTERING YIELD 67 4.5 SECONDARY ION MASS SPECTROSCOPY (SIMS) 69 4.6 SECONDARY NEUTRAL MASS SPECTROSCOPY (SNMS) 73 4.7 PREFERENTIAL SPUTTERING AND DEPTH PROFILES 75 4.8 INTERFACE BROADENING AND ION MIXING 77 4.9 THOMAS-FERMI STATISTICAL MODEL OF THE ATOM 80 PROBLEMS 81 5. ION CHANNELING 84 5.1 INTRODUCTION 84 5.2 CHANNELING IN SINGLE CRYSTALS 84 5.3 LATTICE LOCATION OF IMPURITIES IN CRY STALS 88 5.4 CHANNELING FLUX DISTRIBUTIONS 89 5.5 SURFACE INTERACTION VIA A TWO-ATOM MODEL 92 5.6 THE SURFACE PEAK 95 5.7 SUBSTRATE SHADOWING: EPITAXIAL AU ON AG( 111) 97 5.8 EPITAXIAL GROWTH 99 5.9 THIN FILM ANALYSIS 101 PROBLEMS 103 6. ELECTRON-ELECTRON INTERACTIONS AND THE DEPTH SENSITIVITY OF ELECTRON SPECTROSCOPIES 105 6.1 INTRODUCTION 105 6.2 ELECTRON SPECTROSCOPIES: ENERGY ANALYSIS 105 6.3 ESCAPE DEPTH AND DETECTED VOLUME 106 6.4 INELASTIC ELECTRON-ELECTRON COLLISIONS 109 6.5 ELECTRON IMPACT IONIZATION CROSS SECTION 110 6.6 PLASMONS 111 6.7 THE ELECTRON MEAN FREE PATH 113 6.8 INFLUENCE OF THIN FILM MORPHOLOGY ON ELECTRON ATTENUATION 114 6.9 RANGE OF ELECTRONS IN SOLIDS 118 6.10 ELECTRON ENERGY LOSS SPECTROSCOPY (EELS) 120 6.11 BREMSSTRAHLUNG 124 PROBLEMS 126 CONTENTS IX 7. X-RAY DIFFRACTION 129 7.1 INTRODUCTION 129 7.2 BRAGG'S LAW IN REAL SPACE 130 7.3 COEFFICIENT OF THERMAL EXPANSION MEASUREMENTS 133 7.4 TEXTURE MEASUREMENTS IN POLYCRYSTALLINE THIN FILMS 135 7.5 STRAIN MEASUREMENTS IN EPITAXIAL LAYERS 137 7.6 CRYSTALLINE STRUCTURE 141 7.7 ALLOWED REFLECTIONS AND RELATIVE INTENSITIES 143 PROBLEMS 149 8. ELECTRON DIFFRACTION 152 8.1 INTRODUCTION 152 8.2 RECIPROCAL SPACE 153 8.3 LAUE EQUATIONS 157 8.4 BRAGG'S LAW 158 8.5 EWALD SPHERE SYNTHESIS 159 8.6 THE ELECTRON MICROSCOPE 160 8.7 INDEXING DIFFRACTION PATTERNS 166 PROBLEMS 172 9. PHOTON ABSORPTION IN SOLIDS AND EXAFS 174 9.1 INTRODUCTION 174 9.2 THE SCHROEDINGER EQUATION 174 9.3 WAVE FUNCTIONS 176 9.4 QUANTUM NUMBERS, ELECTRON CONFIGURATION, AND NOTATION 179 9.5 TRANSITION PROBABILITY 180 9.6 PHOTOELECTRIC EFFECTSQUARE-WELL APPROXIMATION 181 9.7 PHOTOELECTRIC TRANSITION PROBABILITY FOR A HYDROGENIC ATOM 184 9.8 X-RAY ABSORPTION 185 9.9 EXTENDED X-RAY ABSORPTION FINE STRUCTURE (EXAFS) 189 9.10 TIME-DEPENDENT PERTURBATION THEORY 192 PROBLEMS 197 10. X-RAY PHOTOELECTRON SPECTROSCOPY 199 10.1 INTRODUCTION 199 10.2 EXPERIMENTAL CONSIDERATIONS 199 10.3 KINETIC ENERGY OF PHOTOELECTRONS 203 10.4 PHOTOELECTRON ENERGY SPECTRUM 204 10.5 BINDING ENERGY AND FINAL-STATE EFFECTS 206 10.6 BINDING ENERGY SHIFTSCHEMICAL SHIFTS 208 10.7 QUANTITATIVE ANALYSIS 210 PROBLEMS 211 X CONTENTS 11. RADIATIVE TRANSITIONS AND THE ELECTRON MICROPROBE 214 11.1 INTRODUCTION 214 11.2 NOMENCLATURE IN X-RAY SPECTROSCOPY 215 11.3 DIPOLE SELECTION RULES 215 11.4 ELECTRON MICROPROBE 216 11.5 TRANSITION RATE FOR SPONTANEOUS EMISSION 220 11.6 TRANSITION RATE FOR K A EMISSION IN NI 220 11.7 ELECTRON MICROPROBE: QUANTITATIVE ANALYSIS 222 11.8 PARTICLE-INDUCED X-RAY EMISSION (PIXE) 226 11.9 EVALUATION OF THE TRANSITION PROBABILITY FOR RADIATIVE TRANSITIONS. 227 11.10 CALCULATION OF THE KSS/K A RATIO 230 PROBLEMS 231 12. NONRADIATIVE TRANSITIONS AND AUGER ELECTRON SPECTROSCOPY 234 12.1 INTRODUCTION 234 12.2 AUGER TRANSITIONS 234 12.3 YIELD OF AUGER ELECTRONS AND FLUORESCENCE YIELD 241 12.4 ATOMIC LEVEL WIDTH AND LIFETIMES 243 12.5 AUGER ELECTRON SPECTROSCOPY 244 12.6 QUANTITATIVE ANALYSIS 248 12.7 AUGER DEPTH PROFILES 249 PROBLEMS 252 13. NUCLEAR TECHNIQUES: ACTIVATION ANALYSIS AND PROMPT RADIATION ANALYSIS. 255 13.1 INTRODUCTION 255 13.2 Q VALUES AND KINETIC ENERGIES 259 13.3 RADIOACTIVE DECAY 262 13.4 RADIOACTIVE DECAY LAW 265 13.5 RADIONUCLIDE PRODUCTION 266 13.6 ACTIVATION ANALYSIS 266 13.7 PROMPT RADIATION ANALYSIS 267 PROBLEMS 274 14. SCANNING PROBE MICROSCOPY 277 14.1 INTRODUCTION 277 14.2 SCANNING TUNNELING MICROSCOPY 279 14.3 ATOMIC FORCE MICROSCOPY 284 APPENDIX 1. KM FOR 4 HE + AS PROJECTILE AND INTEGER TARGET MASS 291 APPENDIX 2. RUTHERFORD SCATTERING CROSS SECTION OF THE ELEMENTS FORLMEV 4 HE+ 294 APPENDIX 3. 4 HE + STOPPING CROSS SECTIONS 296 APPENDIX 4. ELECTRON CONFIGURATIONS AND IONIZATION POTENTIALS OF ATOMS 299 APPENDIX 5. ATOMIC SCATTERING FACTORS 302 APPENDIX 6. ELECTRON BINDING ENERGIES 305 CONTENTS XI APPENDIX 7. X-RAY WAVELENGTHS (NM) 309 APPENDIX 8. MASS ABSORPTION COEFFICIENT AND DENSITIES 312 APPENDIX 9. KLL AUGER ENERGIES (EV) 316 APPENDIX 10. TABLE OF THE ELEMENTS 319 APPENDIX 11. TABLE OF FLUORESENCE YIELDS FOR K, L, AND M SHELLS 325 APPENDIX 12. PHYSICAL CONSTANTS, CONVERSIONS, AND USEFUL COMBINATIONS 327 APPENDIX 13. ACRONYMS 328 INDEX 330 /
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indexdate	2024-07-09T20:40:02Z
institution	BVB
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language	English
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physical	XIV, 336 S. Ill., graph. Darst.
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spelling	Alford, Terry L. Verfasser aut Fundamentals of nanoscale film analysis Terry L. Alford ; Leonard C. Feldman ; James W. Mayer Nanoscale thin film analysis New York Springer 2007 XIV, 336 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Angekündigt u.d.T.: Alford, Terry L.: Nanoscale thin film analysis Couches minces Materiales nanoestructurados Nanomatériaux Películas delgadas Nanostructured materials Thin films Photonenstrahlung (DE-588)4126328-5 gnd rswk-swf Teilchenstrahlung (DE-588)4680408-0 gnd rswk-swf Materialcharakterisierung (DE-588)4720368-7 gnd rswk-swf Nanometerbereich (DE-588)4327473-0 gnd rswk-swf Festkörperoberfläche (DE-588)4127823-9 gnd rswk-swf Festkörperoberfläche (DE-588)4127823-9 s Materialcharakterisierung (DE-588)4720368-7 s Photonenstrahlung (DE-588)4126328-5 s Teilchenstrahlung (DE-588)4680408-0 s Nanometerbereich (DE-588)4327473-0 s DE-604 Feldman, Leonard C. Verfasser aut Mayer, James W. 1930-2013 Verfasser (DE-588)121494349 aut text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2739587&prov=M&dok_var=1&dok_ext=htm Inhaltstext GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014833722&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Alford, Terry L. Feldman, Leonard C. Mayer, James W. 1930-2013 Fundamentals of nanoscale film analysis Couches minces Materiales nanoestructurados Nanomatériaux Películas delgadas Nanostructured materials Thin films Photonenstrahlung (DE-588)4126328-5 gnd Teilchenstrahlung (DE-588)4680408-0 gnd Materialcharakterisierung (DE-588)4720368-7 gnd Nanometerbereich (DE-588)4327473-0 gnd Festkörperoberfläche (DE-588)4127823-9 gnd
subject_GND	(DE-588)4126328-5 (DE-588)4680408-0 (DE-588)4720368-7 (DE-588)4327473-0 (DE-588)4127823-9
title	Fundamentals of nanoscale film analysis
title_alt	Nanoscale thin film analysis
title_auth	Fundamentals of nanoscale film analysis
title_exact_search	Fundamentals of nanoscale film analysis
title_exact_search_txtP	Fundamentals of nanoscale film analysis
title_full	Fundamentals of nanoscale film analysis Terry L. Alford ; Leonard C. Feldman ; James W. Mayer
title_fullStr	Fundamentals of nanoscale film analysis Terry L. Alford ; Leonard C. Feldman ; James W. Mayer
title_full_unstemmed	Fundamentals of nanoscale film analysis Terry L. Alford ; Leonard C. Feldman ; James W. Mayer
title_short	Fundamentals of nanoscale film analysis
title_sort	fundamentals of nanoscale film analysis
topic	Couches minces Materiales nanoestructurados Nanomatériaux Películas delgadas Nanostructured materials Thin films Photonenstrahlung (DE-588)4126328-5 gnd Teilchenstrahlung (DE-588)4680408-0 gnd Materialcharakterisierung (DE-588)4720368-7 gnd Nanometerbereich (DE-588)4327473-0 gnd Festkörperoberfläche (DE-588)4127823-9 gnd
topic_facet	Couches minces Materiales nanoestructurados Nanomatériaux Películas delgadas Nanostructured materials Thin films Photonenstrahlung Teilchenstrahlung Materialcharakterisierung Nanometerbereich Festkörperoberfläche
url	http://deposit.dnb.de/cgi-bin/dokserv?id=2739587&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014833722&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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