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A New Model of X-Ray Position Sensitive Detector Developed in France

Published online by Cambridge University Press:  06 March 2019

Louis Castex
Affiliation:
Laboratoire de Mécanique-Physique, ERA CNRS n° 769, F-33405 Talence
Jean Lou Lebrun
Affiliation:
Département Matériaux, Ecole Nationals Supérieure d'Arts et Métiers, F-75640 Paris
Serge Bras
Affiliation:
Société Instruments SA, F-91160 Longjumeau
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Extract

Since 1973 X-ray position sensitive detectors (P.S.D.) have been employed for stress analysis. The first models, based on the gas flow of Ar-CH4, were composed of a quartz fiber anode (20 um diameter), coated by a thin carbon layer. From 1975 the gas filling has become permanent. Hence the use of fiber P.S.D. (F-P.S.D.) was made easier; nevertheless, two important inconveniences remained. On the one hand, an intensive X-ray beam could destroy rapidly and locally the carbon film, which makes the detector malfunction; on the other hand, the pulse height analysis (P.H.A.), carried out in 1976, has proved to be ineffectual because of the design of the F-P.S.D. itself: its fiber impedance does not remain constant. Thus the appearnace, in 1979, of a new P.S.D. with a metallic wire (W-P.S.D.) presented a significant advantage (see Fig. 1). The anode—made of tungsten or molybdenum Gilded--can resist intensive X-ray beams perfectly. Hence the life of the detector is only limited by a possible ionization of the filling gas, which approximately corresponds to 1012 counts. A gas refilling--which will be provided in the standard equipment--allows us to use the detector again.

Type
Research Article
Copyright
Copyright © International Centre for Diffraction Data 1980

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References

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