Title :
An Analytical Model to Quantify Decay Chain Disequilibrium–Application to the Thorium Decay Chain
Author :
Kaouache, A. ; Wrobel, F. ; SaigneÌ, FreÌdeÌric ; Touboul, A.D. ; Schrimpf, R.D. ; Autran, J.L.
Author_Institution :
Univ. Montpellier 2, Montpellier, France
Abstract :
An emissivity model, generalized to disequilibrium states of radioactive decay chains, is used to study the effects of thorium decay chain disequilibrium on alpha emissivity. The results show that even if the alpha emissivity produced by the thorium decay chain is initially acceptable, it can increase significantly during the device lifetime. Three radionuclides in the thorium chain are responsible for the increase: 232Th, 228Th, and 228Ra. Their initial concentrations determine the evolution of the emissivity during the device lifetime.
Keywords :
alpha-decay; emissivity; nuclei with mass number 220 or higher; radioisotopes; 228Ra nuclei; 228Th nuclei; 232Th nuclei; alpha emissivity; analytical model; disequilibrium states; emissivity model; radioactive decay chains; radionuclides; thorium decay chain disequilibrium; Alpha particles; Analytical models; Contamination; Equations; Mathematical model; Silicon; Alpha emissivity; SRAM; alpha particles; decay chain; disequilibrium; secular equilibrium; thorium;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2318074
