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Characteristics of Flow Proportional Counters for X-Rays

Published online by Cambridge University Press:  06 March 2019

N. Spielberg
N. Spielberg*
Affiliation:
Philips Laboratories Briarcliff Manor, New York
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Abstract

Gas flow proportional counters for the detection of soft X-rays were introduced about ten years ago. These detectors offered the advantages of high sensitivity, good energy discrimination qualities and the ability to handle high counting rates. Since that time they have been used for ultra-soft and harder X-rays as well, both as detectors in standard spectrographic instruments and as energy discriminating instruments themselves in various so-called nondispersive applications. Depending upon the particular instrumental application, however, their use has led to considerable complication of the associated electronic circuitry in order to realize their advantages. For the most effective use of these counters (and of sealed proportional counters as well) it is necessary to have a clear understanding of the effect of various design parameters and operating conditions on their performance. The dependence of the shape of the pulse height distribution on the operating voltage, pressure and counting rate is described as a function of the energy of the radiation detected and the nature of the gas. Stability requirements on. counter tube high voltage supplies and operating pressure are discussed. Shifts of pulse height distributions toward smaller pulse sizes with increasing counting rate are described and the dependence of these shifts on the various parameters and on wavelength are discussed. Techniques for eliminating the shifts and the implications of these techniques for the associated electronics are described.

Type
Research Article
Information
Advances in X-Ray Analysis , Volume 10: Fifteenth Annual Conference on Applications of X-ray Analysis, August 10-12, 1966 , 1966 , pp. 534 - 545
Copyright
Copyright © International Centre for Diffraction Data 1966

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References

1. Arndt, U. W., Coates, W. A., and Crathorn, A. R., “A Gas-Flow X-Ray Diffraction Counter,” Proc. Phys. Soc. (London) B67: 357, 1954.Google Scholar
2. Hendee, C. F., S. Fine, and Brown, W. B., “Gas-Flow Proportional Counter for Soft X-Ray Detection,” Rev. Set. Instr. 27: 531,1956.Google Scholar
3. Henke, Burton L., “X-Ray Fluorescence Analysis for Sodium, Fluorine, Oxygen, Nitrogen, Carbon, and Boron,” Advances in X-Ray Analysis, Vol. 7, Plenum Press, New York, 1964, pp. 460488.Google Scholar
4. Lublin, P. and Sutkowski, W. J., “Application of the Electron Probe to Electronic Materials,” in ; T. D. McKtnley, K. F. J. Heinrich, and D. B. Wittry (eds.), The Electron Microprobe, The Electrochemical Society, John Wiley & Sons, Inc., New York, 1966, pp. 677690.Google Scholar
5. Parrish, W. and Kohler, T. R., “Use of Counter Tubes in X-Ray Analysis,” Rev. Set. Instr. 27: 795, 1956.Google Scholar
6. Dolby, R. M., “Some Methods for Analyzing Unresolved Proportional Counter Curves of X-Ray Line Spectra,” Proc. Phys. Soc. (London) 73: 81, 1959.Google Scholar
7. Birks, L. S. and Batt, A. P., “Use of a Multichannel Analyzer for Electron Probe Microanalysis,” Anal. Ckem. 35: 778, 1963.Google Scholar
8. Bender, S. L. and Rapperport, E. J., “Nonproportional Behavior of the Flow Proportional Detector,” in: T, D. McKinley, K. F. J. Heinrich, and D. B. Wittry (eds.), The Electron Microprobe, The Electrochemical Society, John Wiley & Sons, Inc., New York, 1966, pp. 405414.Google Scholar
9. Beaman, D. R., “Effect of Pulse Amplitude Shifts on Electron Probe Intensity Radios,” Anal. Chem. 38: 599, 1966.Google Scholar
10. Spielberg, N., “Elimination of Intensity Dépendent Shifts in Proportional Counter Pulse Height Distributions,” Rev. Sci. Instr. 37: 1268, 1966.Google Scholar
11. Curran, S. C., “The Proportional Counter as Detector and Spectrometer,” in: S. Flugge (ed,), Handbuck der Phyaik, Vol. XLV, Nuclear Instrumentation II, E. Creutz (coed.), Springer-Verlag, Berlin, 1958, pp. 174221.Google Scholar
12. Parrish, William, “Escape Peaks in X-Ray Diffractometry,” Advances in X-Ray Analysis, Vol. 8, Plenum Press, New York, 1965, pp. 118138.Google Scholar
13. Deslattes, Richard D., Simpson, Bert G., and LaVilla, Robert E., “Gas Density Stabilizer for Flow Proportional Counters,” Rev. Set. Instr. 37: 596, 1966.Google Scholar