Author:
Guimarães R. B.,Amaral L.,Behar M.,Fink D.,Zawislak F. C.
Abstract
Depth profiles of 30–150 keV6Li implanted into the photoresist AZ111 have been analyzed through the 6Li(n,a)t nuclear reaction using thermal neutrons. As was found recently for 10B and 19F implanted into the same material, at certain threshold implantation energy the Li ions also split up into a regular and a nonregular distribution. This energy differs from the energies found for 10B and 19F, but at the threshold the electronic stopping power has the same value of about 20 eV/Å in the three cases. The nonregular Li fraction, typically around 10% of the implanted atoms, redistributes according to the TRIM code predicted profile of electronic energy transfer. The regular component exhibits a range profile that is well described by the TRIM code particle distribution predictions. The analysis of the B, F, and Li data shows that there is an approximately linear relation between the nonregular fraction of ions and the density of total deposited energy.
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Cited by
17 articles.
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