Abstract
Low-temperature micro-photoluminescence (PL) was performed for strained Si (sSi) films by 325 nm-laser excitation at 8.5 K. All of the sSi films were thicker than the penetration depth ( d p) of the 325-nm line for Si. The dependence of the PL spectra on the strain condition was studied by comparing d p to the thickness of the strained part ( t s), which varied in the sSi film plane. Under the condition t s > d p, the strained-part-related PL (PL-S) was observed, but not the unstrained-part-related PL (PL-US). Under the condition t s < d p, PL-US appeared and its intensity negatively depended on t s, while the intensity of PL-S positively depended on t s. Under the condition of a very small t s, PL-S was never observed. These phenomena were explained by exciton behaviors in sSi film with a band-gap distribution, and enable a deeper understanding of PL characteristics in a relatively large-scale sample with a depth distribution of strain.
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