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Estimates of radiation response are presented for the Model 103 Gamma-Intensity-Time Recorder (GITR) as used at Operation Sunbeam. The GITR detector unit, consisting of two concentric ionization chambers, was mounted inside the GITR recorder case and located 3 ft above ground level. GITR responses and their time-dependence were estimated for several idealized radiation source geometries and several calculated gamma energy spectra. Estimated response values are presented as fractions of the GITR's calibration-response to Cs137 radiation beamed at the top of the unmounted detector along its longitudinal axis. The principal conclusions drawn were that: The GITR responses to distributed sources with specified gamma energy spectra did not show a significant dependence upon the source geometries investigated. There were about 17% differences between the responses of the two concentric detectors. The responses changed about 15% during the first 100 hours after fission. The use of overall average GITR responses for distributed sources seems warranted; there is 95% confidence that 95% of the population of GITR responses will be within 12% of the overall average response of 1.16 for the high-range detector, and within 14% of the overall average response of 0.99 for the low-range detector, during the first 110 hours after fission. (Author).
There is 95% confidence that 95% of the population of GITR responses will be within 12% of the overall average response of 1.16 for the high-range detector, and within 14% of the overall average response of 0.99 for the low-range detector, during the first 110 hours after fission.
Because the present estimates of GITR response are measures of the bias in the previously-reported radiation data obtained with these GITR detectors, the bias may be corrected (or at least minimized) by dividing that data by the appropriate overall average response values mentioned above.
The aim of this book is to give an account of the principal radiochemical methods used in chemical analysis. It is assumed that the reader already has some background knowledge of radioactivity, available from several general textbooks. For this reason some subjects, e. g. the fundamentals of radio activity, the properties of radiation, statistics of counting procedures, the precautions needed in working with radioactive materials, which could have occupied half the text, are not considered in detail. The different aspects of radiochemical analysis have been covered by specialized books and reviews, e. g. on activation analysis, gamma spectrometry, radiometric titrations. A good deal of information is in the form of reports of meetings and symposia and liquid scintillation counting, for instance, has been mainly covered in this way. There are also a large number of journals. It is therefore hoped that this book will help fill the gap between the introductory texts and the specialized sources, many of which are referred to in the chapter references. The ftrst three chapters in the present volume deal with the methods of measurement of radioactive nuclides. Chapter I gives a general account of detection and measurement techniques. The next two chapters are devoted to two specialized techniques: gamma-ray spectrometry and liquid scintilla tion counting.
A Symposium on Electronic Composition in Printing was held at the Gaithersburg Laboratories of the National Bureau of Standards.The symposium was a state-of-the-art review of a rapidly advancing field of computer application with great potentialities for increased efficiency and savings in the Federal Government.(Author).