X-Ray Diffraction

Book description

High-resolution x-ray diffraction and scattering is a key tool for structure analysis not only in bulk materials but also at surfaces and buried interfaces from the sub-nanometer range to micrometers. This book offers an overview of diffraction and scattering methods currently available at modern synchrotron sources and illustrates bulk and interface investigations of solid and liquid matter with up-to-date research examples. It presents important characteristics of the sources, experimental set-up, and new detector developments. The book also considers future exploitation of x-ray free electron lasers for diffraction applications.

Table of contents

  1. Front Cover
  2. Contents (1/2)
  3. Contents (2/2)
  4. Preface
  5. Contents (1/2)
  6. Contents (2/2)
  7. Preface
  8. Chapter 1 Overview of X- Ray Scattering and Diffraction Theory and Techniques (1/6)
  9. Chapter 1 Overview of X- Ray Scattering and Diffraction Theory and Techniques (2/6)
  10. Chapter 1 Overview of X- Ray Scattering and Diffraction Theory and Techniques (3/6)
  11. Chapter 1 Overview of X- Ray Scattering and Diffraction Theory and Techniques (4/6)
  12. Chapter 1 Overview of X- Ray Scattering and Diffraction Theory and Techniques (5/6)
  13. Chapter 1 Overview of X- Ray Scattering and Diffraction Theory and Techniques (6/6)
  14. Chapter 2 Scattering and Diffraction Beamlines at Synchrotron Radiation Sources (1/6)
  15. Chapter 2 Scattering and Diffraction Beamlines at Synchrotron Radiation Sources (2/6)
  16. Chapter 2 Scattering and Diffraction Beamlines at Synchrotron Radiation Sources (3/6)
  17. Chapter 2 Scattering and Diffraction Beamlines at Synchrotron Radiation Sources (4/6)
  18. Chapter 2 Scattering and Diffraction Beamlines at Synchrotron Radiation Sources (5/6)
  19. Chapter 2 Scattering and Diffraction Beamlines at Synchrotron Radiation Sources (6/6)
  20. Chapter 3 Micro- and Nanodiffraction (1/7)
  21. Chapter 3 Micro- and Nanodiffraction (2/7)
  22. Chapter 3 Micro- and Nanodiffraction (3/7)
  23. Chapter 3 Micro- and Nanodiffraction (4/7)
  24. Chapter 3 Micro- and Nanodiffraction (5/7)
  25. Chapter 3 Micro- and Nanodiffraction (6/7)
  26. Chapter 3 Micro- and Nanodiffraction (7/7)
  27. Chapter 4 Small- Angle X- Ray Scattering (1/8)
  28. Chapter 4 Small- Angle X- Ray Scattering (2/8)
  29. Chapter 4 Small- Angle X- Ray Scattering (3/8)
  30. Chapter 4 Small- Angle X- Ray Scattering (4/8)
  31. Chapter 4 Small- Angle X- Ray Scattering (5/8)
  32. Chapter 4 Small- Angle X- Ray Scattering (6/8)
  33. Chapter 4 Small- Angle X- Ray Scattering (7/8)
  34. Chapter 4 Small- Angle X- Ray Scattering (8/8)
  35. Chapter 5 The X- Ray Standing Wave Technique: Fourier Analysis with Chemical Sensitivity (1/4)
  36. Chapter 5 The X- Ray Standing Wave Technique: Fourier Analysis with Chemical Sensitivity (2/4)
  37. Chapter 5 The X- Ray Standing Wave Technique: Fourier Analysis with Chemical Sensitivity (3/4)
  38. Chapter 5 The X- Ray Standing Wave Technique: Fourier Analysis with Chemical Sensitivity (4/4)
  39. Chapter 6 Inelastic X- Ray Scattering from Phonons (1/6)
  40. Chapter 6 Inelastic X- Ray Scattering from Phonons (2/6)
  41. Chapter 6 Inelastic X- Ray Scattering from Phonons (3/6)
  42. Chapter 6 Inelastic X- Ray Scattering from Phonons (4/6)
  43. Chapter 6 Inelastic X- Ray Scattering from Phonons (5/6)
  44. Chapter 6 Inelastic X- Ray Scattering from Phonons (6/6)
  45. Chapter 7 Magnetic X- Ray Scattering (1/6)
  46. Chapter 7 Magnetic X- Ray Scattering (2/6)
  47. Chapter 7 Magnetic X- Ray Scattering (3/6)
  48. Chapter 7 Magnetic X- Ray Scattering (4/6)
  49. Chapter 7 Magnetic X- Ray Scattering (5/6)
  50. Chapter 7 Magnetic X- Ray Scattering (6/6)
  51. Chapter 8 Nuclear Resonant Scattering of Synchrotron Radiation: Applications in Magnetism (1/5)
  52. Chapter 8 Nuclear Resonant Scattering of Synchrotron Radiation: Applications in Magnetism (2/5)
  53. Chapter 8 Nuclear Resonant Scattering of Synchrotron Radiation: Applications in Magnetism (3/5)
  54. Chapter 8 Nuclear Resonant Scattering of Synchrotron Radiation: Applications in Magnetism (4/5)
  55. Chapter 8 Nuclear Resonant Scattering of Synchrotron Radiation: Applications in Magnetism (5/5)
  56. Chapter 9 Reflectivity at Liquid Interfaces (1/6)
  57. Chapter 9 Reflectivity at Liquid Interfaces (2/6)
  58. Chapter 9 Reflectivity at Liquid Interfaces (3/6)
  59. Chapter 9 Reflectivity at Liquid Interfaces (4/6)
  60. Chapter 9 Reflectivity at Liquid Interfaces (5/6)
  61. Chapter 9 Reflectivity at Liquid Interfaces (6/6)
  62. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (1/12)
  63. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (2/12)
  64. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (3/12)
  65. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (4/12)
  66. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (5/12)
  67. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (6/12)
  68. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (7/12)
  69. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (8/12)
  70. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (9/12)
  71. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (10/12)
  72. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (11/12)
  73. Chapter 10 X- Ray Diffraction at Extreme Conditions: Today and Tomorrow (12/12)
  74. Chapter 11 Synchrotron Tomography (1/6)
  75. Chapter 11 Synchrotron Tomography (2/6)
  76. Chapter 11 Synchrotron Tomography (3/6)
  77. Chapter 11 Synchrotron Tomography (4/6)
  78. Chapter 11 Synchrotron Tomography (5/6)
  79. Chapter 11 Synchrotron Tomography (6/6)
  80. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (1/9)
  81. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (2/9)
  82. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (3/9)
  83. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (4/9)
  84. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (5/9)
  85. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (6/9)
  86. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (7/9)
  87. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (8/9)
  88. Chapter 12 Coherent X- Ray Diffraction Imaging of Nanostructures (9/9)
  89. Chapter 13 X- Ray Photon Correlation Spectroscopy (1/8)
  90. Chapter 13 X- Ray Photon Correlation Spectroscopy (2/8)
  91. Chapter 13 X- Ray Photon Correlation Spectroscopy (3/8)
  92. Chapter 13 X- Ray Photon Correlation Spectroscopy (4/8)
  93. Chapter 13 X- Ray Photon Correlation Spectroscopy (5/8)
  94. Chapter 13 X- Ray Photon Correlation Spectroscopy (6/8)
  95. Chapter 13 X- Ray Photon Correlation Spectroscopy (7/8)
  96. Chapter 13 X- Ray Photon Correlation Spectroscopy (8/8)
  97. Back Cover

Product information

  • Title: X-Ray Diffraction
  • Author(s): Oliver H. Seeck, Bridget Murphy
  • Release date: February 2015
  • Publisher(s): CRC Press
  • ISBN: 9789814303606