Front Cover

pp.：  1 – 4

Photo-Electronic Image Devices

pp.：  4 – 5

Copyright Page

pp.：  5 – 6

Contents

pp.：  6 – 10

CONTRIBUTORS

pp.：  10 – 16

PREFACE

pp.：  16 – 18

PROFESSOR

pp.：  18 – 22

Chapter 1. LLL TV Sensors with 18 mm Useful Input Diagonal Using Demagnifying Image Intensifiers

pp.：  22 – 30

Chapter 2. Low-light-level TV with Image Intensifier Tubes and CCDs

pp.：  30 – 38

Chapter 3. Low-light-level TV with II/CCD Coupled Devices: Relative Merits of Different Approaches

pp.：  38 – 48

Chapter 4. A fibre-optically Coupled Intensified CCD Camera System

pp.：  48 – 56

Chapter 5. A 3-stage 80: 7 mm Image Intensifier Combination for the CERN UA2 Scintillating Fibre Detector

pp.：  56 – 62

Chapter 6. A 40 mm MCP Intensifier for Photon Counting

pp.：  62 – 76

Chapter 7. Development of a CCD-Digicon Detector System

pp.：  76 – 90

Chapter 8. Increased Gain of channel Intensifier Tubes by Pulsed Biasing

pp.：  90 – 100

Chapter 9. Influence of Output Electron Energy Distribution of Microchannel Plates on the Resolution of Image Intensifiers

pp.：  100 – 108

Chapter 10. MCP-PMTs as Ultra-fast Wide-band and Infrared-sensitive Detectors

pp.：  108 – 118

Chapter 11. Performance of a Photon-counting Microchannel Plate Intensifier with Wedge and Strip Image Readout

pp.：  118 – 128

Chapter 12. A Multichannel Detector for Photon Correlation

pp.：  128 – 140

Chapter 13. Application of Image Intensifier-Vidicon Systems to Low-light-level Phenomena in Physics and Biology

pp.：  140 – 150

Chapter 14. Cooled CCD Systems for Biomedical and Other Applications

pp.：  150 – 156

Chapter 15. Utilisation Astronomique de la Caméra Electronique Grand Champ–II

pp.：  156 – 168

Chapter 16. Image Recording in Electron Microscopy

pp.：  168 – 178

Chapter 17. A1/2 -inch 792 (H) x 492 (V) Pixel Colour Synchro Vision CCD Image Sensor

pp.：  178 – 186

Chapter 18. Thinned Rear-face Electron-bombarded FT CCDs for LLL TV Imaging

pp.：  186 – 194

Chapter 19. A 2 x 2048 Pixel Bilinear CCD Array for Spectroscopy (TH 7832 CDZ)

pp.：  194 – 202

Chapter 20. Development of EBCCD Cameras for the Far Ultraviolet

pp.：  202 – 222

Chapter 21. Recent Developments in Solid-state Arrays for Infrared Astronomy

pp.：  222 – 230

Chapter 22. Multiple-frame UV/X-Ray Picosecond Framing Camera

pp.：  230 – 240

Chapter 23. Evaluation of PV001 and P-100 Tubes for Multiple-channel Streak Cameras

pp.：  240 – 242

Chapter 24. Evaluation of a Photon-counting Streak Camera with CCD Recording

pp.：  242 – 244

Chapter 25. A New Method for Observing High-speed Luminous Phenomena

pp.：  244 – 254

Chapter 26. An X-Ray Streak Tube. with Demountable Photocathodes

pp.：  254 – 260

Chapter 27. A Subnanosecond Multi-framing Camera

pp.：  260 – 268

Chapter 28. A CsI(Na) Scintillation Plate with High Spatial Resolution

pp.：  268 – 278

Chapter 29. X-Ray Imaging Sensor Using a CdTe/a-Si: H Heterojunction

pp.：  278 – 290

Chapter 30. Low-noise Solid-state Linear Detectors for Large-field-of-view X-Ray Radiology

pp.：  290 – 296

Chapter 31. An Image-intensified CCD Area X-Ray Detector for Use with Synchrotron Radiation

pp.：  296 – 306

Chapter 32. Further Developments of an X-Ray Television Detector

pp.：  306 – 318

Chapter 33. Development of Large-format Photon-counting Array Detectors for the Lyman Ultraviolet Space Telescope

pp.：  318 – 336

Chapter 34. Image Intensifier Tubes with Intagliated Screens

pp.：  336 – 344

Chapter 35. Photocathodes on Polycrystalline CsI/Na

pp.：  344 – 352

Chapter 36. High Performance with Trialkaline Antimonide Photocathodes

pp.：  352 – 360

Chapter 37. Relationship Between Microstructure and Photoelectric Quantum Yield (PQY) of S - I Photoemitting Surfaces

pp.：  360 – 368

Chapter 38. S.20 Photocathode Stability Considerations

pp.：  368 – 380

Chapter 39. Physical Model and Optimization of a Heterostructure Vidicon Target Based on Amorphous Hydrogenated Silicon

pp.：  380 – 390

Chapter 40. A New Extended Infrared Vidicon

pp.：  390 – 400

Chapter 41. Avalanche-mode Amorphous Selenium Photoconductive Target for Camera Tube

pp.：  400 – 410

Chapter 42. An Electrostatic Deflection, Electromagnetic Focusing Pick-up Tube for High-definition Television

pp.：  410 – 418

Chapter 43. Surface Temperature Measurement of Small Objects by the Microthermovision Technique

pp.：  418 – 426

Chapter 44. Anti-veiling Glare Windows for Third-generation Image Intensifiers

pp.：  426 – 434

Chapter 45. The Design of the Image Intensifier for the Faint Object Camera of NASA’s Space Telescope

pp.：  434 – 446

Chapter 46. Evaluation of Photon-event-counting Intensifiers

pp.：  446 – 456

Chapter 47. Calculations of the Electron Optics of Image Intensifiers Taking Account of Deviations from Rotational Symmetry

pp.：  456 – 478

Chapter 48. Optimization of the Imaging Properties of an Image Inverter Tube

pp.：  478 – 486

Chapter 49. An XUV Image Sensor for Rowland-circle Spectrographs

pp.：  486 – 496

Chapter 50. Properties of Imaging Electron-optical Systems for Image Tubes

pp.：  496 – 504

Chapter 51. Numerical Evaluation of Spread and Transfer Functions for Image Intensifiers with Polychromatic Illumination

pp.：  504 – 518

INDEX

pp.：  518 – 530