Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1876244 | Applied Radiation and Isotopes | 2012 | 5 Pages |
Accurate and speedy estimations of ppm range uranium and thorium in the geological and rock samples are most useful towards ongoing uranium investigations and identification of favorable radioactive zones in the exploration field areas.In this study with the existing 5 in.×4 in. NaI(Tl) detector setup, prevailing background and time constraints, an enhanced geometrical setup has been worked out to improve the minimum detection limits for primordial radioelements K40, U238 and Th232. This geometrical setup has been integrated with the newly introduced, digital signal processing based MCA system for the routine spectrometric analysis of low concentration rock samples.Stability performance, during the long counting hours, for digital signal processing MCA system and its predecessor NIM bin based MCA system has been monitored, using the concept of statistical process control. Monitored results, over a time span of few months, have been quantified in terms of spectrometer's parameters such as Compton striping constants and Channel sensitivities, used for evaluating primordial radio element concentrations (K40, U238 and Th232) in geological samples. Results indicate stable dMCA performance, with a tendency of higher relative variance, about mean, particularly for Compton stripping constants.
► Geometrical enhancement for ppm range primordial radio elemental determination. ► Experimental constraints include detector setup, background and counting time. ► Gamma spectrometric performance monitored on digital and analog MCA systems. ► Study indicates higher variance of Compton stripping constants on digital MCA system.