UNT Libraries Government Documents Department - 9 Matching Results
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- Development of Dumont Photomultiplier Tubes: Report Number 19
- Report concerning the ongoing development of the Dumont photomultiplier tube. Ongoing improvements have been noted.
- Development of Dumont Photomultiplier Tubes: Report Number 20
- Report concerning the ongoing development of the Dumont photomultiplier tube. Tube improvements have been noted.
- Development of Dumont Photomultiplier Tubes: Report Number 21
- Report concerning the ongoing development of photomultiplier tubes for use in the scintillation counter field.
- Electronic Devices for Nuclear Physics: February 1, 1956 - April 30, 1956
- Report regarding the ongoing development of both multi-alkali photocathodes and an improved photomultiplier.
- Electronic Devices for Nuclear Physics: May 1, 1956 - July 31, 1956
- Report regarding the ongoing development of both multi-alkali photocathodes and improved photomultipliers.
- Electronic Devices for Nuclear Physics: November 1, 1955 - January 31, 1956
- Report regarding the ongoing development of both multi-alkali photocathodes and improved photomultipliers.
- Progress Report on AEC Contract on Research and Development Program on Scintillation Crystals: Period 1 January 1956 to 1 April 1956
- From Abstract: "This report covers the preliminary literature survey and the screening of activated cesium iodide and several alkali halides to qualitatively determine their luminerscence. The report also includes a proposal of the future work and a proposed budget for the 1957 fiscal year."
- Report #26: Development of Photomultiplier Tubes
- From Large Area Multiplier Phototubes: "Figure 1 illustrates the nature of the design required as compared to the cone design utilized previously, Fig. 2. The metal cone shown in Figure 1 will be welded onto flange of the cone in Figure 2."
- Report #27: Development of Photomultiplier Tubes
- From Development of Improved Electron Optics For the 16 Inch Multiplier Phototube: "In order to derive a more efficient electrostatic optical system to be used in conjunction with a large area, 16 inch diameter multiplier phototube the following analysis has been made. This analysis is based on a similar optical system which is to be used in the design of a 16 inch diameter image convertor. At the end on the minifier, we reached the conclusion that the relaxation method constituted the best approach to the solution of the boundary value potential problem inside an axisymmetrical image convertor."