Advances in Electronics and Electron Physics
Academic Press
Published on 1. January 1969
551 pages
978-0-08-057690-9 (ISBN)
Description
Advances in Electronics and Electron Physics
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Advances in Electronics and Electron Physics: Photo-electronic Image Devices, Symposium, 1968 v. 28A
Book
01/1969
Academic Press
€107.09
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Content
- Front Cover
- Photo-Electronic Image Devices
- Copyright Page
- Contents
- List of Contributors
- Foreword
- Preface
- Contents of Volume B
- Chapter 1. A Technical Description of the Construction, Function, and Application of the U.S. Navy Electronic Camera
- Chapter 2. Large-image Electronographic Camera
- Chapter 3. Sur Quelques Progrés Récents Apportés á la Caméra Électronique á Focalisation Électrostatique et sur son Application en Physique et en Astronomie
- Chapter 4. Electronic Cameras for Space Research
- Chapter 5. A High-resolution Image Tube for Integrated Circuit Fabrication
- Chapter 6. Further Developments of the Spectracon
- Chapter 7. Cathode-ray Tube with Thin Electron-permeable Window
- Chapter 8. Cascade Image Intensifier Developments
- Chapter 9. A Family of Multi-stage Direct-view Image Intensifiers with Fiber-optic Coupling
- Chapter 10. Some Aspects of the Design and Manufacture of a Fibre-optic Coupled Cascade Image Intensifier
- Chapter 11. A Proximity-focused Image Tube
- Chapter 12. INTIC, an Image INTensifying, Integrating and Contrast-enhancing Storage Tube
- Chapter 13. A Light Amplifier with High Light Output
- Chapter 14. SEC Camera-tube Performance Characteristics and Applications
- Chapter 15. Some Properties of SEC Targets
- Chapter 16. Newly Developed Image Orthicon Tube with a MgO Target
- Chapter 17. Electrostatically Scanned Image Orthicon
- Chapter 18. The Development of Image Isocons for Low-light Applications
- Chapter 19. Dynamic Imaging with Television Cameras
- Chapter 20. Beam-discharge Lag in a Television Pick-up Tube
- Chapter 21. A 13-mm All-Electrostatic Vidicon
- Chapter 22. An Infra-red Sensitive Vidicon With a New Type of Target
- Chapter 23. Récherche d'un Dispositif Nouveau de Télévision Thermique
- Chapter 24. Un Tube de Prise de Vues Sensible aux Rayons X
- Chapter 25. Adjustable Saturation in a Pick-up Tube with Linear Light Transfer Characteristic
- Chapter 26. Measurement of TV Camera Noise
- Chapter 27. An Electromechanical Picture Signal Generating Device
- Chapter 28. Effects of Caesium Vapour upon the Target Glass of Image Orthicons
- Chapter 29. Research on Photocathodes in Czechoslovakia
- Chapter 30. Crystal Structure of Multialkali Photocathodes
- Chapter 31. Some Properties of the Trialkali Sb-K-Rb-Cs Photocathode
- Chapter 32. Decay of S·20 Photocathode Sensitivity Due to Ambient Gases
- Chapter 33. A New Technology for Transferring Photocathodes
- Chapter 34. Improvements to Photocathodes for Pulse Operation
- Chapter 35. Some Getter Materials for Caesium Vapour
- Chapter 36. New Approaches to Photoemission at Long Wavelengths
- Chapter 37. Gallium Arsenide Thin-film Photocathodes
- Chapter 38. Étude de l'Émission Photoélectrique des Structures Métal-Isolant-Métal
- Chapter 39. Interference Photocathodes
- Chapter 40. The Development and Application of Interference Photocathodes for Image Tubes
- Chapter 41. Image Intensifier System Using Reflective Photocathode
- Chapter 42. Scintillation Processes in Thin Films of CsI(Na) and CsI(Tl) due to Low Energy X-Rays, Electrons and Protons
- Chapter 43. Quelques Aspects des Essais de Dépôt de Photocathodes S·20 et d'Écrans Fluorescents sur Fibres Optiques
- Chapter 44. Channel Multiplier Plates for Imaging Applications
- Chapter 45. An Analysis of the Low-level Performance of Channel Multiplier Arrays
- Chapter 46. Quelques Problémes Concernant les Multiplicateurs Canalisés pour Intensificateur d'Image
- Chapter 47. Effects of Vacuum Space Charge in Channel Multipliers
- Chapter 48. Statistics of Transmitted Secondary Electron Emission
- Chapter 49. Two Methods for the Determination of the Imaging Properties of Electron-optical Systems with a Photocathode
- Chapter 50. Computation of Imaging Properties of Image Tubes from an Analytic Potential Representation
- Chapter 51. The Design of Electrostatic Zoom Image Intensifiers
- Chapter 52. Electron Optics of a Photoconductive Image Converter
