화학공학소재연구정보센터
Applied Surface Science, Vol.255, No.1, 71-74, 2008
Useful vacancies: Positron beam interrogation of fluorine-vacancy complexes in semiconductor device structures
The formation, migration and agglomeration in silicon of fluorine-vacancy complexes have been monitored by single-detector Doppler broadening spectroscopy. After electronics engineers found that fluorine ion implantation effectively eliminated the transient-enhanced diffusion of dopants in the creation of ultra-shallow junctions, a vital step in the further miniaturization of device structures, positron beams have played a pivotal role in providing an insight into the mechanisms underlying this phenomenon, being able to detect FV complexes in implanted and annealed samples. Secondary Ion Mass Spectrometry has provided complementary information on fluorine concentrations so that the nature of the FmVn complexes can be further assessed. New results on Si and SiGe structures are presented. (C) 2008 Elsevier B.V. All rights reserved.