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Advances in electronics and electron physics . Voume 64B, Photo-electronic image devices /
Advances in Electronics and Electron Physics.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York, N.Y. :
Academic Press,
1985.
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| Colección: | Advances in electronics and electron physics ;
64B |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Advances in Electronics and Electron Physics, Volume 64B; Copyright Page; Contents; Contents of Volume A; Contributors; Preface; Abbreviations; Part I: Microchannel Plate Intensifiers and Properties of Photocathodes and Phosphors; Chapter 1. Detection Efficiencies of Far-Ultraviolet Photon-Counting Detectors; Chapter 2. High-Resolution and Large Size Wafer Microchannel Image Intensifier; Chapter 3. A Two-Dimensional Photon-Counting Tube; Chapter 4. High Spatial and Temporal Resolution Imaging with a Resistive Anode Photon Counter
- Chapter 5. Output Energy Distribution of a Microchannel PlateChapter 6. Computer Analysis of the Temporal Properties of a Microchannel Plate Photomultiplier; Chapter 7. The MCP as a High-Energy Particle Track Detector; Chapter 8. High-Resolution Luminescent Screens for Image Intensifier Tubes; Chapter 9. Multialkali Effects and Polycrystalline Properties of Multialkali Antimonide Photocathodes; Chapter 10. Properties of a Photocathode with a Palladium Substrate; Chapter 11. The Luminous Efficiency of a Phosphor Layer in the Forward and Backward Directions
- Chapter 12. Study of ESBI and Sensitivity Characteristics of Ag-O-Cs Systems for Image TubesChapter 13. A Near-infrared Photocathode; Part II : Television Systems and X-Ray Intensification; Chapter 14. A Magnetic Focus Electrostatic Deflection Compact Camera Tube; Chapter 15. Pyroelectric Vidicons for Submillimeter Wavelengths; Chapter 16. An Amorphous Silicon Vidicon Tube; Chapter 17. A Physical Model of Heterostructure Targets for Camera Tubes; Chapter 18. A Quality Figure for the Emission System in Camera Tubes; Chapter 19. Recent Developments in Real-Time Image Processing
- Chapter 20. The Evaluation of Silicon CCDs for Imaging X-Ray Spectroscopy in the Range 1 to 8 keVChapter 21. X-Ray Imaging and Spectroscopy with CCDs; Chapter 22. Configuration and Performance of a Television X-Ray Detector System for Imaging Diffraction Applications; Chapter 23. A Solid-State Slit Scan X-Ray Detector in Large Field of View (LFOV) Radiology; Chapter 24. A Gated X-Ray Intensifier with a Resolution of 50 Picoseconds; Chapter 25. An Experimental TV Camera Tube Sensitive to the Soft X-Ray Region; Part III : Electron Optics and Miscellaneous Applications
- Chapter 26. The Effect of Electron Optics on the Properties of the X-Ray Image IntensifierChapter 27. Variational Theory of Aberrations in Cathode Lenses; Chapter 28. A Generalized Theory of Wide Electron Beam Focusing; Chapter 29. Oblique Magnetic Focus Point Spread Profiles and MTFs; Chapter 30. Electron Beam Deflection in the Focusing Magnetic Field of a Camera Tube; Chapter 31. Subpicosecond Chronoscopy Using a Photochron IV Streak Camera; Chapter 32. A Picosecond Framing Camera for Single or Multiple Frames; Chapter 33. A Spatial Light Modulator