Compact Plasma and Focused Ion Beams

Compact Plasma and Focused Ion Beams

by Sudeep Bhattacharjee
Released December 2013
Publisher(s): CRC Press
ISBN: 9781466557925

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Book description

Recent research has brought the application of microwaves from the classical fields of heating, communication, and generation of plasma discharges into the generation of compact plasmas that can be used for applications such as FIB and small plasma thrusters. However, these new applications bring with them a new set of challenges. With coverage ranging from the basics to new and emerging applications, Compact Plasma and Focused Ion Beams discusses how compact high-density microwave plasmas with dimensions smaller than the geometrical cutoff dimension can be generated and utilized for providing focused ion beams of various elements.

Starting with the fundamentals of the cutoff problem for wave propagation in waveguides and plasma diagnostics, the author goes on to explain in detail the plasma production by microwaves in a compact geometry and narrow tubes. He then thoroughly discusses wave interaction with bounded plasmas and provides a deeper understanding of the physics. The book concludes with an up-to-date account of recent research on pulsed microwaves and the application of compact microwave plasmas for multi-element FIB.

It provides a consolidated and unified description of the emerging areas in plasma science and technology utilizing wave-based plasma sources based on the author’s own work and experience. The book will be useful not only to established researchers in this area but will also serve as an excellent introduction to those interested in applying these ideas to various current and new applications.

Table of contents

  1. Front Cover (1/2)
  2. Front Cover (2/2)
  3. Contents (1/2)
  4. Contents (2/2)
  5. Foreword
  6. Preface
  7. Acknowledgments
  8. Author
  9. Chapter 1: Introduction (1/4)
  10. Chapter 1: Introduction (2/4)
  11. Chapter 1: Introduction (3/4)
  12. Chapter 1: Introduction (4/4)
  13. Chapter 2: Review of the Cutoff Problem (1/3)
  14. Chapter 2: Review of the Cutoff Problem (2/3)
  15. Chapter 2: Review of the Cutoff Problem (3/3)
  16. Chapter 3: Plasma and Wave Diagnostics (1/4)
  17. Chapter 3: Plasma and Wave Diagnostics (2/4)
  18. Chapter 3: Plasma and Wave Diagnostics (3/4)
  19. Chapter 3: Plasma and Wave Diagnostics (4/4)
  20. Chapter 4: Genesis of a Wave Induced Discharge: A New Perspective (1/5)
  21. Chapter 4: Genesis of a Wave Induced Discharge: A New Perspective (2/5)
  22. Chapter 4: Genesis of a Wave Induced Discharge: A New Perspective (3/5)
  23. Chapter 4: Genesis of a Wave Induced Discharge: A New Perspective (4/5)
  24. Chapter 4: Genesis of a Wave Induced Discharge: A New Perspective (5/5)
  25. Chapter 5: Plasma Production in Continuous-Mode Microwaves: Near-Circular Multicusp (1/4)
  26. Chapter 5: Plasma Production in Continuous-Mode Microwaves: Near-Circular Multicusp (2/4)
  27. Chapter 5: Plasma Production in Continuous-Mode Microwaves: Near-Circular Multicusp (3/4)
  28. Chapter 5: Plasma Production in Continuous-Mode Microwaves: Near-Circular Multicusp (4/4)
  29. Chapter 6: Plasma Production in Continuous-Mode Microwaves: Rectangular Nonmulticusp Waveguide (1/3)
  30. Chapter 6: Plasma Production in Continuous-Mode Microwaves: Rectangular Nonmulticusp Waveguide (2/3)
  31. Chapter 6: Plasma Production in Continuous-Mode Microwaves: Rectangular Nonmulticusp Waveguide (3/3)
  32. Chapter 7: Comparison of Square and Near-Circular Multicusp Waveguides (1/4)
  33. Chapter 7: Comparison of Square and Near-Circular Multicusp Waveguides (2/4)
  34. Chapter 7: Comparison of Square and Near-Circular Multicusp Waveguides (3/4)
  35. Chapter 7: Comparison of Square and Near-Circular Multicusp Waveguides (4/4)
  36. Chapter 8: Plasma Production in Pulsed-Mode Microwaves: General Experiment (1/4)
  37. Chapter 8: Plasma Production in Pulsed-Mode Microwaves: General Experiment (2/4)
  38. Chapter 8: Plasma Production in Pulsed-Mode Microwaves: General Experiment (3/4)
  39. Chapter 8: Plasma Production in Pulsed-Mode Microwaves: General Experiment (4/4)
  40. Chapter 9: Plasma Production in Pulsed-Mode Microwaves: Circular Multicusp Waveguide with a Dimension below Cutoff (1/5)
  41. Chapter 9: Plasma Production in Pulsed-Mode Microwaves: Circular Multicusp Waveguide with a Dimension below Cutoff (2/5)
  42. Chapter 9: Plasma Production in Pulsed-Mode Microwaves: Circular Multicusp Waveguide with a Dimension below Cutoff (3/5)
  43. Chapter 9: Plasma Production in Pulsed-Mode Microwaves: Circular Multicusp Waveguide with a Dimension below Cutoff (4/5)
  44. Chapter 9: Plasma Production in Pulsed-Mode Microwaves: Circular Multicusp Waveguide with a Dimension below Cutoff (5/5)
  45. Chapter 10: Plasma Buildup by Short-Pulse, High-Power Microwaves (1/4)
  46. Chapter 10: Plasma Buildup by Short-Pulse, High-Power Microwaves (2/4)
  47. Chapter 10: Plasma Buildup by Short-Pulse, High-Power Microwaves (3/4)
  48. Chapter 10: Plasma Buildup by Short-Pulse, High-Power Microwaves (4/4)
  49. Chapter 11: Power Absorption and Intense Collimated Beam Production in a Pulsed High-Power Microwave Ion Source (1/2)
  50. Chapter 11: Power Absorption and Intense Collimated Beam Production in a Pulsed High-Power Microwave Ion Source (2/2)
  51. Chapter 12: New Experiments in Continuous-Mode Microwaves: Formation of Standing Waves and Electron Trapping (1/4)
  52. Chapter 12: New Experiments in Continuous-Mode Microwaves: Formation of Standing Waves and Electron Trapping (2/4)
  53. Chapter 12: New Experiments in Continuous-Mode Microwaves: Formation of Standing Waves and Electron Trapping (3/4)
  54. Chapter 12: New Experiments in Continuous-Mode Microwaves: Formation of Standing Waves and Electron Trapping (4/4)
  55. Chapter 13: Penetration and Screening of Perpendicularly Launched Electromagnetic Waves (1/5)
  56. Chapter 13: Penetration and Screening of Perpendicularly Launched Electromagnetic Waves (2/5)
  57. Chapter 13: Penetration and Screening of Perpendicularly Launched Electromagnetic Waves (3/5)
  58. Chapter 13: Penetration and Screening of Perpendicularly Launched Electromagnetic Waves (4/5)
  59. Chapter 13: Penetration and Screening of Perpendicularly Launched Electromagnetic Waves (5/5)
  60. Chapter 14: Wave Birefringence in Perpendicular Propagation (1/2)
  61. Chapter 14: Wave Birefringence in Perpendicular Propagation (2/2)
  62. Chapter 15: Electron Localization and Trapping Physics Revisited (1/4)
  63. Chapter 15: Electron Localization and Trapping Physics Revisited (2/4)
  64. Chapter 15: Electron Localization and Trapping Physics Revisited (3/4)
  65. Chapter 15: Electron Localization and Trapping Physics Revisited (4/4)
  66. Chapter 16: New Experiments in Pulsed Microwaves: Quasisteady-State Interpulse Plasmas (1/4)
  67. Chapter 16: New Experiments in Pulsed Microwaves: Quasisteady-State Interpulse Plasmas (2/4)
  68. Chapter 16: New Experiments in Pulsed Microwaves: Quasisteady-State Interpulse Plasmas (3/4)
  69. Chapter 16: New Experiments in Pulsed Microwaves: Quasisteady-State Interpulse Plasmas (4/4)
  70. Chapter 17: Electron Plasma Waves Inside Large-Amplitude Electromagnetic Pulses (1/4)
  71. Chapter 17: Electron Plasma Waves Inside Large-Amplitude Electromagnetic Pulses (2/4)
  72. Chapter 17: Electron Plasma Waves Inside Large-Amplitude Electromagnetic Pulses (3/4)
  73. Chapter 17: Electron Plasma Waves Inside Large-Amplitude Electromagnetic Pulses (4/4)
  74. Chapter 18: Transition from Interpulse to Afterglow Plasmas (1/3)
  75. Chapter 18: Transition from Interpulse to Afterglow Plasmas (2/3)
  76. Chapter 18: Transition from Interpulse to Afterglow Plasmas (3/3)
  77. Chapter 19: Introduction to Focused Ion Beams
  78. Chapter 20: Experimental Setup for Basic Plasma Studies (1/3)
  79. Chapter 20: Experimental Setup for Basic Plasma Studies (2/3)
  80. Chapter 20: Experimental Setup for Basic Plasma Studies (3/3)
  81. Chapter 21: Basic Beam Studies: Extraction and Ion Energy Distribution (1/4)
  82. Chapter 21: Basic Beam Studies: Extraction and Ion Energy Distribution (2/4)
  83. Chapter 21: Basic Beam Studies: Extraction and Ion Energy Distribution (3/4)
  84. Chapter 21: Basic Beam Studies: Extraction and Ion Energy Distribution (4/4)
  85. Chapter 22: Multielement Focused Ion Beam (1/3)
  86. Chapter 22: Multielement Focused Ion Beam (2/3)
  87. Chapter 22: Multielement Focused Ion Beam (3/3)
  88. Chapter 23: Focused Ion Beam Experiments (1/2)
  89. Chapter 23: Focused Ion Beam Experiments (2/2)
  90. Chapter 24: Summary and Future Prospects
  91. Back Cover

Product information

  • Title: Compact Plasma and Focused Ion Beams
  • Author(s): Sudeep Bhattacharjee
  • Release date: December 2013
  • Publisher(s): CRC Press
  • ISBN: 9781466557925