Advances in Electronics and Electron Physics
Academic Press
Published on 1. January 1966
653 pages
978-0-08-057677-0 (ISBN)
Description
Advances in Electronics and Electron Physics
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J.D. McGee
Advances in Electronics and Electron Physics: Photo-electronic Image Devices, Symposium, 1961 v. 16
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01/1962
Academic Press
€101.07
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Content
- Cover
- Contents
- List of Contributors
- Foreword
- Preface
- Chapter 1. Quelques Réflexions sur la Caméra Électronique
- Chapter 2. Propriétés des Photocathodes Libérées dans un Vide Elevé
- Chapter 3. Sur une Nouvelle Technique d'Utilisation de la Caméra Électronique
- Chapter 4. A Modified Lallemand Image Tube
- Chapter 5. Sur la Réalisation d'une Caméra Électronique de Grandissement 1/7
- Chapter 6. Advantages of a Bakeable Electronographic Plate
- Chapter 7. A Low Background Image Tube for Electronography
- Chapter 8. An Image Tube with Lenard Window
- Chapter 9. Thin-window Image Intensifier with Phosphor Output
- Chapter 10. Image Resolution in Thin-window Intensifiers Using Homogeneous Fields
- Chapter 11. An Image Intensifier System for Direct Observation at Very Low Light Levels
- Chapter 12. Low Brightness Photography by Image Intensification
- Chapter 13. Deniers Développements sur les Intensificateurs d'Image Rayons X à Grand Gain et les Tubes Convertisseurs d'Image
- Chapter 14. A Demagnifying Image Tube for Nuclear Physics Applications
- Chapter 15. A Two-stage Electrostatic Image Intensifier with a Large Photocathode Area
- Chapter 16. An Image Intensifier for Track Reaording
- Chapter 17. Experiences with Magnetically Focused Cascade Image Intensifiers
- Chapter 18. Further Work on Image Intensifiers with Transmitted Secondary Electron Multiplication
- Chapter 19. A Transmission Secondary Emission Image Intensifier
- Chapter 20. Transmission Secondary Emission from Low Density Deposits of Insulators
- Chapter 21. Progress Report on a Channelled Image Intensifier
- Chapter 22. An Image Intensifier Tube using the Multipactor Principle
- Chapter 23. Some Methods of Minimizing the Black-border Effect in the Image Orthicon Television Pick-up Tube
- Chapter 24. Electronic Zooming with the Image Orthicon Television Pick-up Tube
- Chapter 25. Image Orthicons with Magnesium Oxide Targets
- Chapter 26. Development of an Infra-red Vidicon-type Pick-up Tube with a Lead Sulphide Target
- Chapter 27. An Improved Ultra-violet Sensitive Vidicon
- Chapter 28. Electron Bombardment Induced Conductivity Including its Application to Ultra- violet Imaging in the Schuman Region
- Chapter 29. Bombardment-induced Conductivity Targets for Image Orthicons
- Chapter 30. Electron Tubes for High-speed Photography
- Chapter 31. Bright Displays for Radar Applications
- Chapter 32. The Tenicon: A High Resolution Information Storage Tube
- Chapter 33. Limitations to Resolving Power in Electronic Imaging
- Chapter 34. A Survey of Work at CBS Laboratories on Photoelectronic Iinage Devices
- Chapter 35. Introduction of Pre-formed Photocathodes into Vacuum Systems
- Chapter 36. The Study of Photocathode Composition by Microbalance Methods
- Chapter 37. Aberration in Magnetic Focus Systems
- Chapter 38. Recent Astronomical Observations obtained with the Lallemand Electronic Camera
- Chapter 39. Photographie des Étoiles Doubles au lloyen do la Caméra Électronique
- Chapter 40. La Photographie Électronique des Planètes et ses Applications Photométriques
- Chapter 41. Astronomical Tests of an Imaging Photomultiplier
- Chapter 42. Laboratory Evaluation of Image Tubes for Astronomical Purposes
- Chapter 43. Some Astronomical Uses of Image Intmmifying Tubes
- Chapter 44. Potentialities and Limitations of Image Scanning Techniques in Astronomy
- Chapter 45. A Report on the Image Orthicon using Slow Read-out
- Chapter 46. Stellar Photometry with an Image Orthicon
- Chapter 47. The Image Orthicon Applied to Solar Photometry
- Chapter 48. The Potentialities of Electronically Scanned Photoconductive Image Detectors for Astronomical Uses
- Chapter 49. Scintillation Chamber Comparisons: Fibers ?. Nal and Image Intensifeis ?. Orthicons
- Chapter 50. Performance of an Image Intensifier System
- Chapter 51. Filament Scintillation Chamber Experiments at Princeton University
- Chapter 52. Work at Imperial College, London, on the Use of Image Intensifiers in Nuclear Physics
- Chapter 53. Two High-energy Physics Experiments using the Luminescent Chamber
- Chapter 54. Photography of Extensive Air Showers in the Atmosphere
- Chapter 55. The Application of Scintillation Chambers to Space Research
- Chapter 56. Properties and Applications of Glass Scintillators
- Chapter 57. Recent Applications of Transmission Secondary Emission Amplification
- Chapter 58. X-Ray Image Intensification Using Multi-stage lmage Intensifiers
- Chapter 59. The Image Orthicon in Diagnostic Radiology
- Chapter 60. Image Storage Techniques Applied to Diagnostic Radiology
- Chapter 61. Some Experiences with X-Ray Image Intensifiers and Television Channels
- Chapter 62. Recent Developments in Solid State Image Amplifiers
- Chapter 63. Some Applications of Solid State Image Converters (SSIC)
- Chapter 64. Experiments on a Wire-electrode Type Image Intensifier Using Electroluminescence
- Chapter 65. The Boundary Layer Image Converter
- Author Index
- Subject Index
