Verfügbarkeit: Experimental neutron scattering

Experimental neutron scattering:

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Hauptverfasser:	Willis, B. T. M. (VerfasserIn), Carlile, Colin J. 1946- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Oxford University Press 2009
Schlagworte:	Neutrons / Scattering Neutronenstreuung Neutronenbeugung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XII, 325 Seiten Illustrationen, Diagramme
ISBN:	9780198519706 9780199673773

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Datensatz im Suchindex

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adam_text	Contents Preface I Generell considerations 1 1 Over 70 years of neutron scattering 3 1.1 The discovery of the neutron 3 1.2 Early history of neutron scattering 5 1.3 Future prospects 11 References 12 2 Neutron properties 15 2.1 Wave-particle duality 15 2.1.1 Interconversion of units 16 2.2 Properties of thermal neutrons 18 2.2.1 Lifetime 18 2.2.2 Mass 19 2.2.3 Wavelength 19 2.2.4 Energy 21 2.2.5 Magnetic properties 21 2.2.6 Polarization properties 22 2.3 Definition of cross-sections 22 2.3.1 Total cross-section 23 2.3.2 Differential cross-section 25 2.3.3 Double differential cross-section 25 2.4 Coherent and incoherent nuclear scattering 26 2.5 Inelastic scattering: Van Hove formalism 30 2.6 Kinematics of inelastic scattering 32 2.7 Magnetic scattering 33 References 34 3 The production of neutrons 35 3.1 Introduction 35 3.2 Radioactive sources 35 3.3 Neutrons from nuclear reactors 36 3.3.1 The ILL reactor 40 3.3.2 Pulsed reactors 41 viii Contents 3.4 Neutrons from pulsed accelerators 3.4.1 Photofission sources using electron accelerators 3.4.2 Spallation sources using proton accelerators 3.5 Neutron moderation: hot and cold sources 3.6 The relative merits of continuous and pulsed sources 52 References 57 4 Neutron detection 59 4.1 Introduction 59 4.2 Beam monitors 60 4.3 Gas detectors 60 4.3.1 Banks of individual detectors 64 4.3.2 Resistive-wire gas proportional counters 64 4.3.3 Multi-wire proportional counter (MWPC) 64 4.3.4 Micropattern gas counters (MPGC) 65 4.4 Scintillation detectors 65 4.4.1 Discrete element scintillators 67 4.4.2 The Anger camera 67 4.5 Plate detectors 68 4.5.1 Photographic plates 68 4.5.2 Image plates 69 References 69 5 Instrument components 71 5.1 Neutron guide tubes 71 5.1.1 Supermirrors 75 5.1.2 Guides on reactors and pulsed sources 77 5.2 Collimators 78 5.2.1 Soller slit collimators 78 5.2.2 Radial collimators 80 5.3 Beam filters and resonance foils 81 5.4 Selection and measurement of neutron energies 84 5.4.1 Choppers 85 5.4.2 Crystal monochromators 89 References 94 6 Sample preparation, sample environment and radiological safety 95 6.1 General considerations 95 6.2 Containment of sample and ideal sample sizes 96 6.3 Cryostats 99 6.4 Pressure cells 101 6.4.1 Materials 102 6.4.2 Windows 102 Contents ix 6.4.3 Environment and safety 103 6.4.4 Pressure cells used for neutron scattering 103 6.5 Radiological safety 104 6.5.1 Definitions 104 6.5.2 Limitation of effective dose 105 6.5.3 Activation of samples by neutron irradiation 105 6.5.4 Shielding from neutron radiation 106 References 107 II Neutron diffraction 109 7 Single crystal diffraction 111 7.1 General 111 7.1.1 The unit cell and the crystal lattice 111 7.1.2 The reciprocal lattice 112 7.1.3 The Ewald sphere 113 7.1.4 Nuclear Bragg scattering 114 7.2 Diffraction at constant wavelength 115 7.2.1 The four-circle diffractometer 115 7.2.2 Area detector instruments 118 7.3 Time-of-flight diffraction 119 7.4 Reduction of intensities to structure amplitudes 121 7.4.1 Correction for absorption 122 7.4.2 Correction for extinction 123 7.4.3 Avoidance of multiple diffraction 124 7.5 Some examples of studies by single crystal neutron diffraction 125 References 127 8 The powder diffraction method 131 8.1 Principles of the powder diffraction method 132 8.1.1 Angle-dispersive procedure 132 8.1.2 Energy-dispersive procedure 134 8.2 Resolution of powder diffraction peaks 137 8.2.1 Effect of size of mosaic block 137 8.2.2 The focusing effect: fixed-wavelength instruments 139 8.2.3 Time-of-flight instruments 141 8.3 Structure refinement from powder data 143 8.4 Neutron strain scanning 147 8.5 Some chemical applications of powder diffraction 150 8.6 Future prospects 151 References 152 9 Polarized neutrons and magnetic neutron diffraction 155 9.1 Introduction 155 χ Contents 9.2 Some fundamental concepts of magnetic scattering 155 9.3 Production of a polarized neutron beam 158 9.3.1 Polarizing single crystals 158 9.3.2 Polarizing mirrors 159 9.3.3 Polarizing filters 161 9.4 Neutron spin nippers and devices for guiding the polarization 162 9.5 Experimental methods 165 9.5.1 Unpolarized neutrons 165 9.5.2 Polarized neutron scattering: measurement of flipping ratios 167 9.5.3 Uniaxial polarization analysis 170 9.5.4 Spherical neutron polarimetry 171 References 172 10 Small-angle neutron scattering 177 10.1 Theory of small-angle scattermg 178 10.1.1 The scattering contrast term 178 10.1.2 The form factor term P(Q) 180 10.1.3 The structure factor term S(Q) 182 10.2 The scattering laws 182 10.2.1 The domain of very small Q 182 10.2.2 The domain of large Q 184 10.3 Experimental considerations 186 10.3.1 Design of SANS instruments 186 10.3.2 Sample size 188 10.3.3 Data analysis 189 10.4 Some applications of SANS 189 References 192 11 Neutron optics 195 11.1 Mirror reflection of neutrons 195 11.1.1 Gravity refractometer 198 11.2 Ultracold neutrons 200 11.3 Dynamical neutron diffraction 203 11.3.1 Basic equations of dynamical diffraction theory 204 11.3.2 Neutron interferometry 207 11.3.3 Pendellösung effects 210 References 213 12 Neutron reflectometry 217 12.1 Theory of neutron reflectivity 218 12.1.1 Non-specular scattering 221 12.2 Spin-polarized neutron reflectometry 221 12.3 Experimental methods 223 12.4 Examples of reflectivity studies 224 12.4.1 Surfactant monolayers 225 Contents xi 12.4.2 Magnetic films 225 12.4.3 Lipid bilayers 227 References 228 13 Liquids, glasses and amorphous materials 231 13.1 Diffraction theory 231 13.1.1 Van Hove correlation functions 235 13.2 Analysis of diffraction data 238 13.3 Diffractometers for liquid and amorphous samples 240 13.4 Atomic structure of liquids 241 13.4.1 Simple liquids 241 13.4.2 Binary liquids 244 13.4.3 Glasses 245 References 246 III Neutron spectroscopy 249 14 Coherent inelastic scattering from single crystals: study of phonons and magnons 251 14.1 The elements of lattice dynamics 251 14.2 One-phonon coherent scattering of neutrons 255 14.2.1 The one-phonon scattering surface 257 14.3 Instruments for inelastic scattering experiments 259 14.3.1 The triple-axis spectrometer 259 14.3.2 Time-of-flight spectrometers 263 14.4 Some examples of coherent inelastic scattering studies of single crystals 266 14.4.1 Phonon dispersion curves 266 14.4.2 Phase transitions 267 14.4.3 Superconductivity 269 14.4.4 Magnon dispersion curves 271 14.5 Comparison of TAS and TOF methods of measuring phonon dispersion relations 273 References 275 15 Inelastic neutron scattering spectroscopy 279 15.1 Introduction 279 15.2 Inelastic molecular neutron spectroscopy 283 15.2.1 Simplified theory 285 15.3 Instrumentation for neutron spectroscopy 288 15.3.1 Direct-geometry spectroscopy 289 15.3.2 Indirect-geometry spectroscopy 290 15.4 Spectroscopie studies using inelastic neutron scattering 290 References 293 xii Contents 16 Quasi-elastic scattering and high-resolution spectroscopy 295 16.1 Introduction 295 16.2 Energy resolution and time scales 296 16.3 Types of spectrometer 298 16.3.1 Direct geometry time-of-flight spectrometer 298 16.3.2 Inverted-geometry spectrometers 300 16.3.3 Neutron spin-echo spectrometer 303 16.4 Examples of studies by high-resolution spectroscopy 304 16.4.1 Diffusion 304 16.4.2 Tunnelling spectroscopy 306 16.4.3 Fast dynamical studies 307 References 308 Appendix A 311 A.I Glossary of special terms 311 Appendix В 319 B.I Neutron scattering lengths and cross-sections of the elements 319 References 321 Index 323
adam_txt	Contents Preface I Generell considerations 1 1 Over 70 years of neutron scattering 3 1.1 The discovery of the neutron 3 1.2 Early history of neutron scattering 5 1.3 Future prospects 11 References 12 2 Neutron properties 15 2.1 Wave-particle duality 15 2.1.1 Interconversion of units 16 2.2 Properties of thermal neutrons 18 2.2.1 Lifetime 18 2.2.2 Mass 19 2.2.3 Wavelength 19 2.2.4 Energy 21 2.2.5 Magnetic properties 21 2.2.6 Polarization properties 22 2.3 Definition of cross-sections 22 2.3.1 Total cross-section 23 2.3.2 Differential cross-section 25 2.3.3 Double differential cross-section 25 2.4 Coherent and incoherent nuclear scattering 26 2.5 Inelastic scattering: Van Hove formalism 30 2.6 Kinematics of inelastic scattering 32 2.7 Magnetic scattering 33 References 34 3 The production of neutrons 35 3.1 Introduction 35 3.2 Radioactive sources 35 3.3 Neutrons from nuclear reactors 36 3.3.1 The ILL reactor 40 3.3.2 Pulsed reactors 41 viii Contents 3.4 Neutrons from pulsed accelerators 3.4.1 Photofission sources using electron accelerators 3.4.2 Spallation sources using proton accelerators 3.5 Neutron moderation: hot and cold sources 3.6 The relative merits of continuous and pulsed sources 52 References 57 4 Neutron detection 59 4.1 Introduction 59 4.2 Beam monitors 60 4.3 Gas detectors 60 4.3.1 Banks of individual detectors 64 4.3.2 Resistive-wire gas proportional counters 64 4.3.3 Multi-wire proportional counter (MWPC) 64 4.3.4 Micropattern gas counters (MPGC) 65 4.4 Scintillation detectors 65 4.4.1 Discrete element scintillators 67 4.4.2 The Anger camera 67 4.5 Plate detectors 68 4.5.1 Photographic plates 68 4.5.2 Image plates 69 References 69 5 Instrument components 71 5.1 Neutron guide tubes 71 5.1.1 Supermirrors 75 5.1.2 Guides on reactors and pulsed sources 77 5.2 Collimators 78 5.2.1 Soller slit collimators 78 5.2.2 Radial collimators 80 5.3 Beam filters and resonance foils 81 5.4 Selection and measurement of neutron energies 84 5.4.1 Choppers 85 5.4.2 Crystal monochromators 89 References 94 6 Sample preparation, sample environment and radiological safety 95 6.1 General considerations 95 6.2 Containment of sample and ideal sample sizes 96 6.3 Cryostats 99 6.4 Pressure cells 101 6.4.1 Materials 102 6.4.2 Windows 102 Contents ix 6.4.3 Environment and safety 103 6.4.4 Pressure cells used for neutron scattering 103 6.5 Radiological safety 104 6.5.1 Definitions 104 6.5.2 Limitation of effective dose 105 6.5.3 Activation of samples by neutron irradiation 105 6.5.4 Shielding from neutron radiation 106 References 107 II Neutron diffraction 109 7 Single crystal diffraction 111 7.1 General 111 7.1.1 The unit cell and the crystal lattice 111 7.1.2 The reciprocal lattice 112 7.1.3 The Ewald sphere 113 7.1.4 Nuclear Bragg scattering 114 7.2 Diffraction at constant wavelength 115 7.2.1 The four-circle diffractometer 115 7.2.2 Area detector instruments 118 7.3 Time-of-flight diffraction 119 7.4 Reduction of intensities to structure amplitudes 121 7.4.1 Correction for absorption 122 7.4.2 Correction for extinction 123 7.4.3 Avoidance of multiple diffraction 124 7.5 Some examples of studies by single crystal neutron diffraction 125 References 127 8 The powder diffraction method 131 8.1 Principles of the powder diffraction method 132 8.1.1 Angle-dispersive procedure 132 8.1.2 Energy-dispersive procedure 134 8.2 Resolution of powder diffraction peaks 137 8.2.1 Effect of size of mosaic block 137 8.2.2 The focusing effect: fixed-wavelength instruments 139 8.2.3 Time-of-flight instruments 141 8.3 Structure refinement from powder data 143 8.4 Neutron strain scanning 147 8.5 Some chemical applications of powder diffraction 150 8.6 Future prospects 151 References 152 9 Polarized neutrons and magnetic neutron diffraction 155 9.1 Introduction 155 χ Contents 9.2 Some fundamental concepts of magnetic scattering 155 9.3 Production of a polarized neutron beam 158 9.3.1 Polarizing single crystals 158 9.3.2 Polarizing mirrors 159 9.3.3 Polarizing filters 161 9.4 Neutron spin nippers and devices for guiding the polarization 162 9.5 Experimental methods 165 9.5.1 Unpolarized neutrons 165 9.5.2 Polarized neutron scattering: measurement of flipping ratios 167 9.5.3 Uniaxial polarization analysis 170 9.5.4 Spherical neutron polarimetry 171 References 172 10 Small-angle neutron scattering 177 10.1 Theory of small-angle scattermg 178 10.1.1 The scattering contrast term 178 10.1.2 The form factor term P(Q) 180 10.1.3 The structure factor term S(Q) 182 10.2 The scattering 'laws' 182 10.2.1 The domain of very small Q 182 10.2.2 The domain of large Q 184 10.3 Experimental considerations 186 10.3.1 Design of SANS instruments 186 10.3.2 Sample size 188 10.3.3 Data analysis 189 10.4 Some applications of SANS 189 References 192 11 Neutron optics 195 11.1 Mirror reflection of neutrons 195 11.1.1 Gravity refractometer 198 11.2 Ultracold neutrons 200 11.3 Dynamical neutron diffraction 203 11.3.1 Basic equations of dynamical diffraction theory 204 11.3.2 Neutron interferometry 207 11.3.3 Pendellösung effects 210 References 213 12 Neutron reflectometry 217 12.1 Theory of neutron reflectivity 218 12.1.1 Non-specular scattering 221 12.2 Spin-polarized neutron reflectometry 221 12.3 Experimental methods 223 12.4 Examples of reflectivity studies 224 12.4.1 Surfactant monolayers 225 Contents xi 12.4.2 Magnetic films 225 12.4.3 Lipid bilayers 227 References 228 13 Liquids, glasses and amorphous materials 231 13.1 Diffraction theory 231 13.1.1 Van Hove correlation functions 235 13.2 Analysis of diffraction data 238 13.3 Diffractometers for liquid and amorphous samples 240 13.4 Atomic structure of liquids 241 13.4.1 Simple liquids 241 13.4.2 Binary liquids 244 13.4.3 Glasses 245 References 246 III Neutron spectroscopy 249 14 Coherent inelastic scattering from single crystals: study of phonons and magnons 251 14.1 The elements of lattice dynamics 251 14.2 One-phonon coherent scattering of neutrons 255 14.2.1 The one-phonon scattering surface 257 14.3 Instruments for inelastic scattering experiments 259 14.3.1 The triple-axis spectrometer 259 14.3.2 Time-of-flight spectrometers 263 14.4 Some examples of coherent inelastic scattering studies of single crystals 266 14.4.1 Phonon dispersion curves 266 14.4.2 Phase transitions 267 14.4.3 Superconductivity 269 14.4.4 Magnon dispersion curves 271 14.5 Comparison of TAS and TOF methods of measuring phonon dispersion relations 273 References 275 15 Inelastic neutron scattering spectroscopy 279 15.1 Introduction 279 15.2 Inelastic molecular neutron spectroscopy 283 15.2.1 Simplified theory 285 15.3 Instrumentation for neutron spectroscopy 288 15.3.1 Direct-geometry spectroscopy 289 15.3.2 Indirect-geometry spectroscopy 290 15.4 Spectroscopie studies using inelastic neutron scattering 290 References 293 xii Contents 16 Quasi-elastic scattering and high-resolution spectroscopy 295 16.1 Introduction 295 16.2 Energy resolution and time scales 296 16.3 Types of spectrometer 298 16.3.1 Direct geometry time-of-flight spectrometer 298 16.3.2 Inverted-geometry spectrometers 300 16.3.3 Neutron spin-echo spectrometer 303 16.4 Examples of studies by high-resolution spectroscopy 304 16.4.1 Diffusion 304 16.4.2 Tunnelling spectroscopy 306 16.4.3 Fast dynamical studies 307 References 308 Appendix A 311 A.I Glossary of special terms 311 Appendix В 319 B.I Neutron scattering lengths and cross-sections of the elements 319 References 321 Index 323
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spelling	Willis, B. T. M. Verfasser (DE-588)142644234 aut Experimental neutron scattering B. T. M. Willis (University of Oxford, U.K.) ; C. J. Carlile (Lund University, Sweden) Oxford Oxford University Press 2009 XII, 325 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Hier auch später erschienene, unveränderte Nachdrucke Neutrons / Scattering Neutronenstreuung (DE-588)4041980-0 gnd rswk-swf Neutronenbeugung (DE-588)4171630-9 gnd rswk-swf Neutronenbeugung (DE-588)4171630-9 s DE-604 Neutronenstreuung (DE-588)4041980-0 s Carlile, Colin J. 1946- Verfasser (DE-588)172780659 aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016684047&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Willis, B. T. M. Carlile, Colin J. 1946- Experimental neutron scattering Neutrons / Scattering Neutronenstreuung (DE-588)4041980-0 gnd Neutronenbeugung (DE-588)4171630-9 gnd
subject_GND	(DE-588)4041980-0 (DE-588)4171630-9
title	Experimental neutron scattering
title_auth	Experimental neutron scattering
title_exact_search	Experimental neutron scattering
title_exact_search_txtP	Experimental neutron scattering
title_full	Experimental neutron scattering B. T. M. Willis (University of Oxford, U.K.) ; C. J. Carlile (Lund University, Sweden)
title_fullStr	Experimental neutron scattering B. T. M. Willis (University of Oxford, U.K.) ; C. J. Carlile (Lund University, Sweden)
title_full_unstemmed	Experimental neutron scattering B. T. M. Willis (University of Oxford, U.K.) ; C. J. Carlile (Lund University, Sweden)
title_short	Experimental neutron scattering
title_sort	experimental neutron scattering
topic	Neutrons / Scattering Neutronenstreuung (DE-588)4041980-0 gnd Neutronenbeugung (DE-588)4171630-9 gnd
topic_facet	Neutrons / Scattering Neutronenstreuung Neutronenbeugung
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