Advances in Electronics and Electron PhysicsAdvances in Electronics and Electron Physics |
Contents
| 1 | |
| 19 | |
| 27 | |
Chapter 4 Electronic Cameras for Space Research | 39 |
Chapter 5 A Highresolution Image Tube for Integrated Circuit Fabrication | 47 |
Chapter 6 Further Developments of the Spectracon | 61 |
Chapter 7 Cathoderay Tube with Thin Electronpermeable Window | 81 |
Chapter 8 Cascade Image Intensifier Developments | 89 |
Chapter 28 Effects of Caesium Vapour upon the Target Glass of Image Orthicons | 309 |
Chapter 29 Research on Photocathodes in Czechoslovakia | 323 |
Chapter 30 Crystal Structure of Multialkali Photocathodes | 337 |
Chapter 31 Some Properties of the Trialkali SbKRbCs Photocathode | 347 |
Chapter 32 Decay of S20 Photocathode Sensitivity Due to Ambient Gases | 357 |
Chapter 33 A New Technology for Transferring Photocathodes | 367 |
Chapter 34 Improvements to Photocathodes for Pulse Operation | 375 |
Chapter 35 Some Getter Materials for Caesium Vapour | 381 |
Chapter 9 A Family of Multistage Directview Image Intensifiers with Fiberoptic Coupling ... | 105 |
Chapter 10 Some Aspects of the Design and Manufacture of a Fibreoptic Coupled Cascade Image Intensifier ... | 119 |
Chapter 11 A Proximityfocused Image Tube | 129 |
Chapter 12 INTIC an Image INTensifying Integrating and Contrastenhancing Storage Tube ... | 137 |
Chapter 13 A Light Amplifier with High Light Output | 151 |
Chapter 14 SEC Cameratube Performance Characteristics and Applications | 159 |
Chapter 15 Some Properties of SEC Targets | 173 |
Chapter 16 Newly Developed Image Orthicon Tube with a MgO Target | 189 |
Chapter 17 Electrostatically Scanned Image Orthicon | 191 |
Chapter 18 The Development of Image Isocons for Lowlight Applications | 209 |
Chapter 19 Dynamic Imaging with Television Cameras | 229 |
Chapter 20 Beamdischarge Lag in a Television Pickup Tube | 237 |
Chapter 21 A 13mm AllElectrostatic Vidicon | 247 |
Chapter 22 An Infrared Sensitive Vidicon With a New Type of Target | 253 |
Chapter 23 Récherche dun Dispositif Nouveau de Télévision Thermique | 265 |
Chapter 24 Un Tube de Prise de Vues Sensible aux Rayons X | 273 |
Chapter 25 Adjustable Saturation in a Pickup Tube with Linear Light Transfer Characteristic ... | 281 |
Chapter 26 Measurement of TV Camera Noise | 289 |
Chapter 27 An Electromechanical Picture Signal Generating Device | 297 |
Chapter 36 New Approaches to Photoemission at Long Wavelengths | 393 |
Chapter 37 Gallium Arsenide Thinfilm Photocathodes | 399 |
Chapter 38 Étude de lÉmission Photoélectrique des Structures MétalIsolantMétal | 409 |
Chapter 39 Interference Photocathodes | 419 |
Chapter 40 The Development and Application of Interference Photocathodes for Image Tubes ... | 433 |
Chapter 41 Image Intensifier System Using Reflective Photocathode | 443 |
Chapter 42 Scintillation Processes in Thin Films of CsINa and CsITl due to Low Energy XRays Electrons and Protons ... | 451 |
Chapter 43 Quelques Aspects des Essais de Dépôt de Photocathodes S20 et dÉcrans Fluorescents sur Fibres Optiques | 461 |
Chapter 44 Channel Multiplier Plates for Imaging Applications | 471 |
Chapter 45 An Analysis of the Lowlevel Performance of Channel Multiplier Arrays | 487 |
Chapter 46 Quelques Problémes Concernant les Multiplicateurs Canalisés pour Intensificateur dImage | 499 |
Chapter 47 Effects of Vacuum Space Charge in Channel Multipliers | 507 |
Chapter 48 Statistics of Transmitted Secondary Electron Emission | 513 |
Chapter 49 Two Methods for the Determination of the Imaging Properties of Electronoptical Systems with a Photocathode ... | 523 |
Chapter 50 Computation of Imaging Properties of Image Tubes from an Analytic Potential Representation ... | 535 |
Chapter 51 The Design of Electrostatic Zoom Image Intensifiers | 537 |
Chapter 52 Electron Optics of a Photoconductive Image Converter | 545 |
Other editions - View all
Advances in Electronics and Electron Physics, Volume 14 Symposium on Photo-Electronic Image Devi,James D. McGee No preview available - 1962 |
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Advances in Electronics amplitude anode antimony aperture applied beam caesium camera tube cathode channel plate charge collimator lens CsI(Na curve deflexion density device diameter distortion distribution dynode écran effect efficiency electric field Electron Physics Electronics and Electron électronique electrostatic energy été evaporated experimental exposure Figure film focusing function gain glass grid illumination image intensifier image orthicon image tube infra-red input J. D. McGee Laboratories layer lens light lp/mm luminous magnetic field magnification maximum measured mesh metal modulation modulation transfer function mu-metal noise obtained operation optical output oxide pattern phosphor screen photocathode photoconductive photoelectrons photoemission potential pressure pulse radius resolution S-20 photocathode scanning secondary emission sensitivity shown in Fig shows signal signal-plate solenoid spectral response substrate surface target temperature thickness torr transmission vacuum variation vidicon voltage wavelength window X-ray image intensifier