Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10662/19627
Títulos: A new approach to the analysis of alpha spectra based on neural network techniques
Autores/as: Baeza, Antonio (Antonio Salvador)
Miranda, Javier
Guillén Gerada, Francisco Javier
Corbacho Merino, José Ángel
Pérez Utrero, Rosa María
Palabras clave: Red Neuronal Artificial;Artificial neural network;Emisores alfa;Alpha emitters;Ajuste de funciones;Function fitting
Fecha de publicación: 2011
Editor/a: Elsevier
Resumen: The analysis of alpha spectra requires good radiochemical procedures in order to obtain well differentiated alpha peaks in the spectrum, and the easiest way to analyze them is by directly summing the counts obtained in the Regions of Interest (ROIs). However, the low-energy tails of the alpha peaks frequently make this simple approach unworkable because some peaks partially overlap. Many fitting procedures have been proposed to solve this problem, most of them based on semi-empirical mathematical functions that emulate the shape of a theoretical alpha peak. The main drawback of these methods is that the great number of fitting parameters used means that their physical meaning is obscure or completely lacking. We propose another approach—the application of an artificial neural network. Instead of fitting the experimental data to a mathematical function, the fit is carried out by an artificial neural network (ANN) that has previously been trained to model the shape of an alpha peak using as training patterns several polonium spectra obtained from actual samples analyzed in our laboratory. In this sense, the ANN is able to learn the shape of an actual alpha peak. We have designed such an ANN as a feed-forward multi-layer perceptron with supervised training based on a back-propagation algorithm. The fitting procedure is based on the experimental observables that are characteristic of alpha peaks—the number of counts of the maximum and several peak widths at different heights. Polonium isotope spectra were selected because the alpha peaks corresponding to 208Po, 209Po, and 210Po are monoenergetic and well separated. The uncertainties introduced by this fitting procedure were less than the counting uncertainties. This new approach was applied to the problem of resolving overlapping peaks. Firstly, a theoretical study was carried out by artificially overlapping alpha peaks from actual samples in order to test the ability of the ANN to resolve each peak. Then, the ANN procedure was checked by determining the activity levels of different spectra obtained from certified samples for which one knows a priori the radioactive content, and its results were compared with those of other methods.
URI: http://hdl.handle.net/10662/19627
ISSN: 0168-9002
DOI: 10.1016/j.nima.2011.01.170
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