Radiation Protection Dosimetry Advance Access originally published online on October 12, 2006
Radiation Protection Dosimetry 2007 125(1-4):237-240; doi:10.1093/rpd/ncl114
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Progress report of the CR-39 neutron personal monitoring service at PSI
Paul Scherrer Institute CH-5232 Villigen PSI, Switzerland
*Corresponding author: annette.fiechtner{at}psi.ch
At the Paul Scherrer Institute a personal neutron dosimetry system based on chemically etched CR-39 detectors and automatic track counting is in routine use since the beginning of 1998. The quality of the CR-39 detectors has always been a crucial aspect to maintain a trustable personal neutron dosimetry system. This paper summarises the 7 y experience in routine use. The effect of detector material defects which could lead to false positive neutron doses is described. The potentiality of improving the background statistics by extending the pre-etch time is investigated and involves as a drawback a quite lower sensitivity to thermal neutrons. Furthermore, the impact of small changes in the production process of the detectors on the response to fast and thermal neutrons is shown. For the personal dosimetry at CERN, a new dosimetry concept was launched by combining a CR-39 neutron dosemeter with a Direct-Ion Storage (DIS) dosemeter for photon and beta radiation. The usage period of the CR-39 dosemeters is prolonged now from 3 months up to 12 months. In this context, the long-term behaviour over 1 y of the background track density and the response to Am–Be are described.