“…The solid state nuclear track detection (SSNTD) is nowadays considered a well established technique that has been used in several different areas, such as geology [32], space sciences [33], radiation dosimetry [34], high energy physics [35], radiobiology [36], microbiological chemistry [37], neutrongraphy [38], alphagraphy [39], metallurgy [40], among others. These applications of the SSNTD technique are usually based on the quantitative analysis of etched tracks and of the images resulting from the superposition of tracks associated to particles possessing different energies.…”