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An Introduction to Synchrotron Radiation
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50,99 €* E-Book
Artikel-Nr:
9781119970965
Veröffentl:
2011
Einband:
E-Book
Seiten:
368
Autor:
Philip Willmott
eBook Typ:
PDF
eBook Format:
E-Book
Kopierschutz:
Adobe DRM [Hard-DRM]
Sprache:
Englisch
Beschreibung:
This book introduces the reader to the basic concepts of thegeneration and manipulation of synchrotron light, its interactionwith matter, and the application of synchrotron light in the"classical" techniques, while including some of themost modern technological developments. As much as possible,complicated mathematical derivations and formulas are avoided. Amore heuristic approach is adopted, whereby the general physicalreasoning behind the equations is highlighted.
Key features:
* A general introduction to synchrotron radiation andexperimental techniques using synchrotron radiation
* Contains many detailed "worked examples" from theliterature
* Of interest for a broad audience - synchrotrons are possiblyone of the best examples of multidisciplinary research
* Four-colour presentation throughout
Key features:
* A general introduction to synchrotron radiation andexperimental techniques using synchrotron radiation
* Contains many detailed "worked examples" from theliterature
* Of interest for a broad audience - synchrotrons are possiblyone of the best examples of multidisciplinary research
* Four-colour presentation throughout
Preface 11
1 Introduction 1
1.1 A Potted History of X-rays 6
1.2 Synchrotron Sources over the Last Fifty Years 11
References 14
2 The interaction of x-rays with matter 17
2.1 Introduction 17
2.2 The Electromagnetic Spectrum 18
2.3 Thomson Scattering 20
2.4 Compton scattering 22
2.5 Atomic Scattering Factors 23
2.6 The refractive index, reflection, and absorption 28
2.7 X-ray fluorescence and Auger emission 35
2.8 Concluding remarks 41
References 41
3 Synchrotron Physics 43
3.1 Introduction 43
3.2 Overview 43
3.3 Radiation from relativistic electrons 48
3.4 Radio frequency power supply and bunching 52
3.5 Photon beam properties 55
3.6 Bending magnets and superbends 61
3.7 Insertion devices 63
3.8 Future sources of synchrotron light 75
3.9 Concluding remarks 90
References 91
4 Beamlines 93
4.1 Introduction 93
4.2 Front end 93
4.3 Primary optics 97
4.4 Microfocus and nanofocus optics 114
4.5 Beam intensity monitors 121
4.6 Detectors 122
4.7 Time-resolved experiments 137
4.8 Concluding remarks 139
References 139
5 Scattering techniques 141
5.1 Introduction 141
5.2 Diffraction at synchrotron sources 142
5.3 Description of crystals 144
5.4 Basic tenets of x-ray diffraction 149
5.5 Diffraction and the convolution theorem 157
5.6 The phase problem and anomalous diffraction 160
5.7 Types of crystalline samples 169
5.8 Single crystal diffraction 172
5.9 Textured samples 180
5.10 Powder diffraction 183
5.11 Protein crystallography 188
5.12 Ultrafast diffraction using femtoslicing 201
5.13 Surface diffraction 202
5.14 Resonant x-ray diffraction 211
5.15 X-ray reflectometry 214
5.16 Small-angle x-ray scattering 223
5.17 Concluding remarks 235
References 236
6 Spectroscopic techniques 241
6.1 Introduction 241
6.2 X-ray absorption processes 242
6.3 Photoelectron energies, wavelengths and absorption regions 249
6.4 X-ray absorption near-edge structure, XANES 251
6.5 Extended x-ray absorption fine structure, EXAFS 260
6.6 Fluorescence spectroscopies 270
6.7 Scanning transmission x-ray microscopy, STXM 281
6.8 Photoemission electron microscopy 287
6.9 Photoemission spectroscopy 296
6.10 Concluding remarks 322
References 322
7 Imaging techniques 327
7.1 Introduction 327
7.2 Computed microtomography 328
7.3 Lensless imaging 352
7.4 Concluding remarks 361
References 362
A Physical constants relevant to synchrotron radiation 365
1 Introduction 1
1.1 A Potted History of X-rays 6
1.2 Synchrotron Sources over the Last Fifty Years 11
References 14
2 The interaction of x-rays with matter 17
2.1 Introduction 17
2.2 The Electromagnetic Spectrum 18
2.3 Thomson Scattering 20
2.4 Compton scattering 22
2.5 Atomic Scattering Factors 23
2.6 The refractive index, reflection, and absorption 28
2.7 X-ray fluorescence and Auger emission 35
2.8 Concluding remarks 41
References 41
3 Synchrotron Physics 43
3.1 Introduction 43
3.2 Overview 43
3.3 Radiation from relativistic electrons 48
3.4 Radio frequency power supply and bunching 52
3.5 Photon beam properties 55
3.6 Bending magnets and superbends 61
3.7 Insertion devices 63
3.8 Future sources of synchrotron light 75
3.9 Concluding remarks 90
References 91
4 Beamlines 93
4.1 Introduction 93
4.2 Front end 93
4.3 Primary optics 97
4.4 Microfocus and nanofocus optics 114
4.5 Beam intensity monitors 121
4.6 Detectors 122
4.7 Time-resolved experiments 137
4.8 Concluding remarks 139
References 139
5 Scattering techniques 141
5.1 Introduction 141
5.2 Diffraction at synchrotron sources 142
5.3 Description of crystals 144
5.4 Basic tenets of x-ray diffraction 149
5.5 Diffraction and the convolution theorem 157
5.6 The phase problem and anomalous diffraction 160
5.7 Types of crystalline samples 169
5.8 Single crystal diffraction 172
5.9 Textured samples 180
5.10 Powder diffraction 183
5.11 Protein crystallography 188
5.12 Ultrafast diffraction using femtoslicing 201
5.13 Surface diffraction 202
5.14 Resonant x-ray diffraction 211
5.15 X-ray reflectometry 214
5.16 Small-angle x-ray scattering 223
5.17 Concluding remarks 235
References 236
6 Spectroscopic techniques 241
6.1 Introduction 241
6.2 X-ray absorption processes 242
6.3 Photoelectron energies, wavelengths and absorption regions 249
6.4 X-ray absorption near-edge structure, XANES 251
6.5 Extended x-ray absorption fine structure, EXAFS 260
6.6 Fluorescence spectroscopies 270
6.7 Scanning transmission x-ray microscopy, STXM 281
6.8 Photoemission electron microscopy 287
6.9 Photoemission spectroscopy 296
6.10 Concluding remarks 322
References 322
7 Imaging techniques 327
7.1 Introduction 327
7.2 Computed microtomography 328
7.3 Lensless imaging 352
7.4 Concluding remarks 361
References 362
A Physical constants relevant to synchrotron radiation 365