Cargando…
Advances in electronics and electron physics Voume 64A, 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.
|
| Colección: | Advances in electronics and electron physics ;
64A |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Contents; Contents of Volume B; Contributors; Preface; Abbreviations; Part 1: Electronography and Imaging Photon-Counting Systems; Chapter 1. A New Concept in the Development of a Very Large Field Electrographic Camera; Chapter 2. Installation d'une Cam�era Electronique Grand Champ au T�elescope Canada- France-Hawaii; Chapter 3. Photon-Counting Imaging and Its Application; Chapter 4. Interpolative Centroiding in CCD-Based Image Photon-Counting Systems; Chapter 5. The Imperial College System for Photon Event Counting; Part 2: Image Intensifiers
- Chapter 6. Performance and Reliability of Third Generation Image IntensifiersChapter 7. Third-Generation lmage Intensifier; Chapter 8. A Proximity-Focused Image Intensifier for Astronomy; Chapter 9. Super Inverter lmage Intensifier; Chapter 10. A Large-Area Electron Image Multiplier; Chapter 11. A 512 Channel Parallel-Output Detector; Chapter 12. Diode Intensifier Tube with Fast Phosphor Screen; Chapter 13. Intensifier Solid-State Detector for Light Pulse Barycenter Reconstruction; Chapter 14. The Prototype MOSAIC Detector
- Chapter 15. Design and Performance of the High-Resolution Spectrograph Sensor SubsystemPart 3: Charge-Coupled Devices; Chapter 16. Electrographic Detectors versus Charge-Coupled Devices: A Comparison of Two Quality Panoramic Detectors for Stellar Photometry; Chapter 17. Evaluation of the GEC 385 x 576 Charge-Coupled Device Image Sensor for Astronomical Use; Chapter 18. Photometric and Spectroscopic Performance of a Thinned RCA CCD Detector; Chapter 19. The UCL Charge-Coupled Device Camera at the South African Astronomical Observatory
- Chapter 20. Getting More by Taking Less: A Method of Summing up Pixels on a CCD ImagerChapter 21. A CCD Camera for Cinematographic Use in Astronomy; Chapter 22. Low(est) Noise Reticon Detection Systems; Chapter 23. Reticon Detector Electronics for the Halley Multicolor Camera on the Giotto Space Mission; Chapter 24. Investigation of CCD-Digicon Detector System Characteristics; Chapter 25. An Intensified Photodiode Array Detector for Space Applications; Chapter 26. A Charge-Sensitive Readout Technique for Infrared Photoconductors
- Chapter 27. Thinned Backside-Bombarded RGS-CCD for Electron ImagingChapter 28. LLL TV Imaging with GaAs Photocathode/CCD Detector; Chapter 29. A CCD Image Sensor Using a Glow Discharge Amorphous Si Photoconductive Layer; Chapter 30. An Improved 2438 Element Three-Phase CCD Linear Image Sensor; Chapter 31. Improved Diagnostic Radiography and Reduced Radiation Exposure Using a 1024 x 1024 Pixels Linear Diode Array Imaging System