Issue 1A (January 1962)

  1. Journal of the SMPTE — Cover InformationOpen access
  2. Greetings from President Dwight D. Eisenhower InformationOpen access
  3. Resolution of the Congress of the United States InformationOpen access
  4. The Society's Role InformationOpen access
  5. Conduct of the Congress InformationOpen access
  6. Committee of Honor InformationOpen access
  7. National Delegates InformationOpen access
  8. Technical Program Committee InformationOpen access
  9. Topic Chairmen for Solicitation of Papers in the U.S.A. InformationOpen access
  10. Program Papers Review Committee InformationOpen access
  11. Congress Session Chairmen and Vice-Chairmen InformationOpen access
  12. Congress Committee for Local Arrangements InformationOpen access
  13. Board of Editors for the Proceedings InformationOpen access
  14. Foreword InformationOpen access
  15. Journal of the SMPTE — Table of Contents InformationOpen access
  16. Paper A–1: Holdover in Xenon Flashlamps InformationOpen access
  17. Paper A–2: The Control of High Power Xenon Flashes by Magnetic Switching Original Research
  18. Paper A–3: High-Intensity, Fractional-Microsecond Light Sources InformationOpen access
  19. Paper A–4: Millimicrosecond Light Source Original Research
  20. Paper A–5: Short-Duration Spark Light Sources of Extreme Luminance Original Research
  21. Paper A–6: Submicrosecond Flash Sources Original Research
  22. Paper A–7: Physical and Technical Parameters of Flashtubes Original Research
  23. Paper A–8: Investigation of the Brightness of Spark Discharge Channels in Various Gases Original Research
  24. Paper A–9: A Capillary Pulse Light Source Giving 40,000 K Blackbody Radiation InformationOpen access
  25. Paper A–10: A High-Intensity Rectangular-Pulse Light Source for High-Speed Photography InformationOpen access
  26. Paper A–11: Use of High-Explosive Flash for Photography by the Schardin System Original Research
  27. Paper A–12: Explosive Flashlight: A New Development in an Explosive Light Source InformationOpen access
  28. Paper A–13: High-Intensity Explosive Light Sources InformationOpen access
  29. Section A — Discussion: Flash Light Sources InformationOpen access
  30. Paper B–1: Flash Light Source Measurement Original Research
  31. Paper B–2: A Photometric Study of Flash Light Sources Associated with Photographic Emulsions InformationOpen access
  32. Paper B–3: Reasons for Reciprocity Failure at Very Short Exposure Times InformationOpen access
  33. Paper B–4: High-Speed Direct-Recording Papers Original Research
  34. Paper B–5: A Comparison of High-Speed Photographic Films with Different Vigorous Development Conditions InformationOpen access
  35. Paper B–6: Some Special Optical Systems and Methods Original Research
  36. Paper B–7: Some Problems of Mirror Scanning Theory for Inclined Mirrors and Inclined Light Beams Original Research
  37. section B — Discussion: Photographic Materials and Optical Components InformationOpen access
  38. Paper C–1: The Astracon Tube and its Application to High-Speed Photography Original Research
  39. Paper C–2: Very-High-Gain Image-Intensifier Systems and the Photography of Single Photons with Microsecond Time Resolution Original Research
  40. Paper C–3: Electronic Image Intensification: Image Intensifier Using Cathodo-Conductivity Original Research
  41. Paper C–4: Development of a Photoelectronic Original Research
  42. Paper C–5: Image-Converter Systems with Fast Image Group Repetition Rates InformationOpen access
  43. Paper C–6: Electron-Optical High-Speed Camera for the Investigation of Transient Processes Original Research
  44. Paper C–7: High-Speed Frame Photography with a Three-Stage Image Converter Utilizing Circuits with Mismatched Storage Lines Original Research
  45. Paper C–8: A Comparison of Kerr Cells and Image Tubes as High-Speed Shutters InformationOpen access
  46. Paper C–9: A Kerr-Cell Camera with Synchronized Light Source for Millimicrosecond Reflected Light Photography Original Research
  47. Paper C–10: Kerr Cell Framing Camera Original Research
  48. Paper C–11: Multiple Kerr-Cell System with Square Shuttering Characteristic InformationOpen access
  49. Paper C–12: High-Sensitivity Television as an Aid to Low-Light-Level Photographic Recording Original Research
  50. Section C — Discussion: Electronic Shutters InformationOpen access
  51. Paper D–1: A Fifty-Millimicrosecond Flash X-Ray System for Hypervelocity Research Original Research
  52. Paper D–2: An Installation for Triple X-Ray Flash Photography at 600 kv InformationOpen access
  53. Paper D–3: Megavolt Flash X-Ray Equipment InformationOpen access
  54. Paper D–4: Theory of Operation of Flash X-Ray Tubes Original Research
  55. Paper D–5: High-Speed X-Ray Flash Cinematography of Small Objects Original Research
  56. Paper D–6: X-Ray Flash Cinematography up to 12,000 Images/Sec Original Research
  57. Paper D–7: Application of Image Intensifier in Flash Radiography Original Research
  58. Paper D–8: Measurements of the Density of Gas in an Argon-Discharge by Soft X-Ray Flashes Original Research
  59. Paper D–9: High-Speed Measurement of Shock Compressibility of Solids in the 1 -Mb Range Original Research
  60. Paper D–10: High-Speed Radiographic and Optical Techniques Applied to Hypervelocity Impact Studies Original Research
  61. Section D — Discussion: Flash X-Ray InformationOpen access
  62. Paper E–1: Some Unconventional Methods of High-Speed Photography Original Research
  63. Paper E–2: A Method of Improving Contrast When Copying Dissected Images Original Research
  64. Paper E–3: New Developments in the Courtney-Pratt High-Speed Camera Original Research
  65. Paper E–4: Properties and Principles of Application of Lenticular Plates in High-Speed Photography InformationOpen access
  66. Paper E–5: Hexagonal Lenslet Arrays InformationOpen access
  67. Paper E–6: Universal Image Dissection Camera with Continuous Access for High-Speed Photography Original Research
  68. Paper E–7: The Printing of Underexposed Photographs by Means of “Optical Contrasters” Original Research
  69. Paper E–8: A Fast Venetian-Blind Shutter InformationOpen access
  70. Paper E–9: High-Speed Photography Using Ultraviolet Radiation to Eliminate Visible Light Masking in Self-Illuminating Events InformationOpen access
  71. Paper E–10: The use of High-Speed Photography and Photoelastic Coatings for the Determination of Dynamic Strains Original Research
  72. Section E — Discussion: Unusual Techniques InformationOpen access
  73. Paper F–1: A Stereoscopic High-Speed Framing Camera Technique for the Study of Shaped-Charge Liner Collapse Original Research
  74. Paper F–2: High-Speed Stereoscopic Photography Original Research
  75. Paper F–3: Design and Application of a High-Speed Time-Resolving Spectrograph InformationOpen access
  76. Paper F–4: High-Speed Time-Resolved Spectroscopic Instruments Original Research
  77. Paper F–5: High-Speed Photographic Studies of Electrically Exploded Metal Films and Wires Original Research
  78. Paper F–6: High-Speed Motion-Picture Photography of Microscopic Phase Changes Original Research
  79. Paper F–7: High-Speed Photographic Recording of Dual Data at High Magnification InformationOpen access
  80. Section F — Discussion: Stereo, Spectra and Micro Studies InformationOpen access
  81. Paper G–1: An f/1 Streak Camera for Spark Studies in Both Ultraviolet and Visible Original Research
  82. Paper G–2: Streak-Camera Development at the National Research Council Original Research
  83. Paper G–3: The Improved f/10 Sweeping-Image Camera: A Versatile Model for Explosive Research Original Research
  84. Paper G–4: A High-Speed Rotating Mirror with Greater Dynamic Resolution InformationOpen access
  85. Paper G–5: Model 200 Reflecting-Optics Sweep Camera InformationOpen access
  86. Paper G–6: Smear-Camera Techniques Original Research
  87. Section G — Discussion: Streak Cameras InformationOpen access
  88. Paper H–1: The Multiple-Spark Camera in Studies Requiring Highly Detailed Photography Original Research
  89. Paper H–2: Focal-Plane Shutters and the Design of High-Frame-Rate Cameras Original Research
  90. Paper H–3: A Rotating-Mirror Framing Camera with Multiple Focal-Plane Shutters Original Research
  91. Paper H–4: A New Type of Ultra-High-Speed Framing Camera Combining a Rotating Mirror with a Film Drum Original Research
  92. Paper H–5: VFK-ÚVOJM High-Speed Framing Camera InformationOpen access
  93. Paper H–6: Tripod-Mounted High-Speed Framing Camera InformationOpen access
  94. Paper H–7: The CORE Camera: Continuous Receptivity — One Rotating Element InformationOpen access
  95. Paper H–8: Applications of the Type C5 Rotating Mirror Framing Camera Original Research
  96. Paper H–9: High-Speed Intermittent Camera Using Multiple Shuttering of Each Frame InformationOpen access
  97. Paper H–10: Design Considerations for Rotating-Prism Cameras InformationOpen access
  98. Section H — Discussion: Multiple Frame Cameras InformationOpen access
  99. Paper I–1: A Modern Reflection Shadowgraph System for Use in High-Velocity Aeroballistic Ranges InformationOpen access
  100. Paper I–2: New Technique for Measurement of Velocity of High-Speed Objects Original Research
  101. Paper I–3: Application of the “Slit-Aperture” Camera for Observation and Data Acquisition in Projectile Studies InformationOpen access
  102. Paper I–4: Underwater High-Speed Photography InformationOpen access
  103. Paper I–5: Study of Chemical Reactions in Gases Emerging from the Muzzle of a Gun, by Means of High-Speed Photography InformationOpen access
  104. Paper I–6: Microsecond Observations of the Dynamic Response of Explosives to Very High Rates of Loading InformationOpen access
  105. Paper I–7: A Photographic Technique for Observing the Behavior of Porous Materials When Rapidly Compressed Original Research
  106. Section I — Discussion: Applications-Ballistics InformationOpen access
  107. Paper J–1: The Photomicrography of Dilute Fiber Suspensions Moving at High Speed InformationOpen access
  108. Paper J–2: High-Speed Photography in the Development of a New Form of Pulverizer InformationOpen access
  109. Paper J–3: Fundamental Research and Theories in Canning Machinery InformationOpen access
  110. Paper J–4: A Variety of Applications of High-Speed Photography at Outboard Marine Research Center InformationOpen access
  111. Paper J–5: High-Speed Cinematography of Agitation and Mixing Processes (Film Lecture) InformationOpen access
  112. Paper J–6: Technique of Measurement of Blood Cell Velocity in Transparent Chambers in Animals InformationOpen access
  113. Paper J–7: Photographic Problems, Techniques and Instrumentation in Sea Animal Locomotion Studies InformationOpen access
  114. Paper J–8: High-Speed Photography in Medical Research InformationOpen access
  115. Paper J–9: Biological Applications of High-Speed Photography (Film) InformationOpen access
  116. Section J — Discussion: Applications — Industry and Biology InformationOpen access
  117. Paper K–1: Some Philosophical Aspects of High-Speed Photographic Instrumentation Original Research
  118. Paper K–2: What is the Sensitivity of a Photographic System? Original Research
  119. Paper K–3: Detection of Particle Flux by a Scintillator, and the Use of Radiation as a Probe Original Research
  120. Paper K–4: Value Received — The use of High-Speed Photographic Techniques in Research and Industry InformationOpen access
  121. Paper K–5: Study of Resolution Limits in High-Speed Framing Cameras Original Research
  122. Section K—Discussion: Values and Problems in High-Speed Photography InformationOpen access
  123. Paper L–1: Application of High-Speed Photography in Nuclear Reactor Development InformationOpen access
  124. Paper L–2: Unusual Applications of Optical Instrumentation at NOTS InformationOpen access
  125. Paper L–3: High-Speed Camera Facilities at the University of California, Lawrence Radiation Laboratory InformationOpen access
  126. Paper L–4: Recent Evolution of Techniques for Ultra-High-Speed Photography at Laboratoire Central de l'Armement Original Research
  127. Paper L–5: Photographic Instrumentation for Ballistic Data Acquisition Original Research
  128. Section L — Discussion: Survey Papers InformationOpen access
  129. Paper M–1: Quenching Spark Gaps as Trigger Elements in High-Speed Cinematography InformationOpen access
  130. Paper M–2: Precision Speed Control of a High-Speed Camera InformationOpen access
  131. Paper M–3: An Automatic Control System for a High-Speed Cine Camera InformationOpen access
  132. Paper M–4: Remote-Control Unit for High-Speed Cameras InformationOpen access
  133. Paper M–5: Pulse Program Generator InformationOpen access
  134. Paper M–6: Trigger Unit for High-Speed Camera InformationOpen access
  135. Paper M–7: A Method of Analyzing High-Speed Films InformationOpen access
  136. section M — Discussion: Systems for Control and Analysis InformationOpen access
  137. Paper N–1: High-Speed Photography Applied to High-Speed Aerodynamic Research at the National Physical Laboratory Original Research
  138. Paper N–2: High-Speed Photography of Rapid Air Currents and Shock Waves by Means of High-Frequency High-Voltage Sparks Original Research
  139. Paper N–3: The High-Speed Photography of Liquid/Solid Impact Original Research
  140. Paper N–4: A Study of the Structure and Ultrasonic Emission of a High-Velocity Air Jet by High-Speed Schlieren and Shadowgraph Techniques InformationOpen access
  141. Paper N–5: Photographic Investigation of a Pulsating Air Jet Impinging on a Heated Plate Original Research
  142. Paper N–6: Photomicrographic Study of Atomization of Liquid Fuels within a Combustion Chamber InformationOpen access
  143. Paper N–7: Photography and Analysis of Time Variation in Drop Size Distribution of a Liquid Spray Original Research
  144. Paper N–8: High-Speed Photography of Hypersonic Phenomena by a Schlieren Interferometric Method Original Research
  145. Paper N–9: Investigation by Spark Cinematography of the Behavior Pattern of Vortices Original Research
  146. Paper N–9: Section N — Discussion: Flow Dynamics InformationOpen access
  147. Résumés InformationOpen access
  148. Zusammenfassungen InformationOpen access
  149. Proceedings of the Five International High-speed Photography Congresses InformationOpen access
  150. Index to Participants in Discussions InformationOpen access
  151. Author Index InformationOpen access
  152. Index to Organizations, Institutions and Companies InformationOpen access
  153. Subject Index InformationOpen access