Advances in Electronics and Electron Physics
Academic Press
Published on 1. January 1969
578 pages
978-0-08-057691-6 (ISBN)
Description
Advances in Electronics and Electron Physics
More details
Other editions
Additional editions
James Dwyer McGee | etc.
Advances in Electronics and Electron Physics: Photo-electronic Image Devices, Symposium, 1968 v. 28B
Book
12/1969
Academic Press
€103.38
Article exhausted; check different version
Persons
Content
- Front Cover
- Advances in Electronics and Electron Physics, Volume 28B
- Copyright Page
- Contents
- List of Contributors
- Foreword
- Preface
- Contents of Volume A
- Part I: Image Tube Assessment
- Chapter 1. Resolving Power of Image Tubes
- Chapter 2. Calculation of the Modulation Transfer Function of an Image Tube
- Chapter 3. Intensifiers: Detmtive Quantum Efficiency, Efficiency Contrast Transfer Function and t,he Signal-to-noisc Ratio
- Chapter 4. On the Quality of Photographic Images Recorded with the Use of Imago Intensifiers
- Chapter 5. Leistungsgrenze eines Sichtsystems mit Bildverstarker
- Chapter 6. Information Transfer with High-gain Image Intensifiers
- Chapter 7. The Useful Luminance Gain of Image Intensifier Systems with Respect to Noise Limitations
- Chapter 8. Image Intensifier Design and Visual Performance at Low Light-levels
- Chapter 9. The Observation of Moving Structures with X-Ray Image Intensifiers
- Chapter 10. A Quadrature Spatial-frequency Fourier Analyser
- Chapter 11. Contrast-enhancement in Imaging Devices by Selection of Input Photosurface Spectral Response
- Chapter 12. Improvement of Signal-to-noise Ratio of Image Converters with S-1 Photocathodes
- Chapter 13. The Fundamental Infra-red Threshold in Thermal Image Detection as Affected by Detector Cooling and Related Problems
- Chapter 14. Cosmic Rays and Image Intensifier Dark Current
- Chapter 15. Dark Current Scintillations of Cascade Image Intensifiers
- Chapter 16. Comparison of' the Efficiency of Image Recording with a Spectracon and with Kodak IIa-O Emulsion
- Chapter 17. Linearity of Electronographic Emulsions
- Chapter 18. Methods of Increasing the Storage Capacity of High-gain Image Intensifier Systems
- Part II: Applications in Astronomy
- Chapter 19. A Critical Comparison of Image Intensifiers for Astronomy
- Chapter 20. The Design of Optical Systems for Use with Image Tubes
- Chapter 21. An Image-tube Spectrograph for the Hale 200-in. Telescope
- Chapter 22. Performance of the Spectracon in Astronomical Spectroscopy
- Chapter 23. Recent Astronomical Applications of a Spectracon
- Chapter 24. Etudes d'astrss Faibles en Lumière Totale avec la Camèra electronique.
- Chapter 25. A Search for Molecular Hydrogen in the Interstellar Medium
- Chapter 26. The Application of SEC Camera Tubes and Electrostatic Image Intensifiers to Astronomy
- Part III: Low Light-level Television
- Chapter 27. Applications of the Image Isocon Tube
- Chapter 28. Television at Low Light-levels by Coupling an Image Intensifier to a Plumbicon
- Chapter 29. Integrating Television Sensors for Space Astronomy
- Chapter 30. The Application of High-gain Image Intensification and Closed-circuit Television to Field-ion Microscopy
- Part IV: Miscellaneous Applications
- Chapter 31. Characteristics of a Television Photometer
- Chapter 32. An Image-tube Fourier Spectrograph
- Chapter 33. A Cascade Image Intensifier Camera for Beam-foil Spectroscopy*
- Chapter 34. Test of a High-resolution Cerenkov Chamber with a Four-stage Imago Intensifier
- Chapter 35. ContrÔle des Monocristeaux par Tube Intensificateur de Luminance
- Chapter 36. Photon Interference Experiments Utilizing Photoelectronic Devices
- Part V: Multichannel Photon Counters
- Chapter 37. A New Multiplier System with Forty Separate Channels
- Chapter 38. Position-sensitive Photon Counters
- Chapter 39. Digital Read-out of an Image Intensifier Using a Vidicon or a Scanning Spiral Slit plus a Digital Memory Oscilloscope
- Part VI: Applications in High-speed Photography
- Chapter 40. Tubes Obturateurs pour Photographie Ultra-rapide au Temps de Pose d'une Nanoseconde
- Chapter 41. Time Resolution Limitations in Single-stage Image Converter Photography
- Chapter 42. The Application of the Electron Image Store and Analyser to High-speed Photography
- Chapter 43. A High-gain Time-resolving Spectrograph for Diagnostics of Laboratory Simulated Re-entry Objects
- Chapter 44. Application of Image Intensifiers and Shutter Tubes to the Study of Gas Discharges
- Chapter 45. A High Speed Photographic Study of the Electrical Breakdown of Small Gaps in Vacuum
- Part VII: Applications in Computing
- Chapter 46. A Charge Image Storage Tube for Character Recognition
- Chapter 47. A Storage Image Tube for Optoelectronic Computing
- Part VIII: Solid-state Devices
- Chapter 48. Recent Developments in Field-effect Image Storage Panels
- Chapter 49. Recent Developments in Solid-state Infra-red Image Converters
- Chapter 50. Solid-state Radiographic Amplifiers and Infra-red Converters
- Author Index
- Subject Index
