Application of Monte Carlo Simulation to /sup 134/Cs standardization by means of 4/spl pi//spl beta/-/spl gamma/ coincidence system

Abstract

The methodology recently developed by the Nuclear Metrology Laboratory (LMN) from IPEN, in Sao Paulo, Brazil, for simulating all detection processes in a 4/spl pi/(/spl beta/,X)-/spl gamma/ coincidence system by means of the Monte Carlo technique is described. This procedure makes possible to predict the behavior of the observed activity as a function of the 4/spl pi//spl beta/ detector efficiency. The present paper describes its application to the standardization of a typical beta-gamma radionuclide, namely /sup 134/Cs. In this approach, information contained in the decay scheme is used for determining the contribution of all radiations emitted by the selected radionuclide to the measured spectra of each detector. This simulation yields the shape of the coincidence spectrum, allowing the choice of suitable gamma-ray energies for which the activity can be obtained with maximum accuracy. The theoretical work applies the MCNP Monte Carlo code to a gas-flow proportional counter with 4/spl pi/ detection geometry, coupled to a pair of NaI(Tl) crystals. The calculated extrapolation curve showed good agreement when compared to experimental values obtained at the LMN of IPEN.